Contents

A&A 464, 211-227 (2007)
DOI: 10.1051/0004-6361:20066101

Unveiling the Cygnus OB2 stellar population with Chandra[*]

J. F. Albacete Colombo1 - E. Flaccomio1 - G. Micela1 - S. Sciortino1 - F. Damiani1

INAF - Osservatorio Astronomico di Palermo, Piazza del Parlamento 1, 90134 Palermo, Italy

Received 25 July 2006 / Accepted 10 October 2006

Abstract
Aims. The aim of this work is to identify the so far unknown low mass stellar population of the $\sim $2 Myr old Cygnus OB2  star forming region, and to investigate the X-ray and near-IR stellar properties of its members.
Methods. We analyzed a 97.7 ks Chandra  ACIS-I observation pointed at the core of the Cygnus OB2  region. Sources were detected using the PWD ETECT code and were positionally correlated with optical and near-IR catalogs from the literature. Source events were extracted with the Acis E XTRACT package. X-ray variability was characterized through the Kolmogorov-Smirnov test and spectra were fitted using absorbed thermal plasma models.
Results. We detected 1003 X-ray sources. Of these, 775 have near-IR counterparts and are expected to be almost all associated with Cygnus OB2  members. From near-IR color-color and color-magnitude diagrams we estimate a typical absorption toward Cygnus OB2  of $A_{\rm v}$ $\approx$ 7.0 mag. Although the region is young, very few stars ($\sim $4.4%) show disk-induced excesses in the near-IR. X-ray variability is detected in $\sim $13% of the sources, but this fraction increases, up to 50%, with increasing source statistics. Flares account for at least 60% of the variability. Despite being generally bright, all but 2 of the 26 detected O- that early B-type stars are not significantly variable. Typical X-ray spectral parameters are log  $N_{\rm H}\sim 22.25$ (cm-2) and $kT\sim 1.35$ keV with 1$\sigma $ dispersion of 0.2 dex and 0.4 keV, respectively. Variable and flaring sources have harder spectra with median kT= 3.3 and 3.8 keV, respectively. OB stars are typically softer ( $kT \sim 0.75$ keV). X-ray luminosities range between 1030 and 1031 erg s-1 for intermediate- and low-mass stars, and $2.5\times10^{30}$ and between $6.3\times10^{33}$ erg s-1 for OB stars.
Conclusions. The Cygnus OB2  region has a very rich population of low-mass X-ray emitting stars. Circumstellar disks seem to be very scarce. X-ray variability is related to the magnetic activity of low-mass stars ( $M/M_\odot \sim0.5$ to 3.0) display X-ray activity levels comparable to those of Orion Nebular Cluster (ONC) sources in the same mass range.

Key words: stars: formation - stars: early-type - stars: pre-main-sequence - X-rays: stars - Galaxy: open clusters and associations: individual: Cygnus OB2

1 Introduction

The Cygnus OB2  association is one of the richest star forming regions in the Galaxy, containing a large population of O- and B-type stars, some of which are among the most massive stars known (Torres-Dodgen et al. 1991). For its richness Cygnus OB2   has been in the past considered a "young globular cluster'' (Knödlseder 2000), although uncertainties remain on the real size of total cluster population (Hanson 2003). At a distance of 1.45 kpc (DM = 10.80, Hanson 2003), Cygnus OB2  lies behind the Great Cygnus Rift and is affected by large and non-uniform extinction, $A_{\rm v}$: 5 to 15. Its distance and absorption have so far hindered optical studies of intermediate- and low- mass stars in the region. The position of known massive OB stars in the HR diagram of Cygnus OB2  suggests an age between 1 and 3 Myr, with $\sim $2 Myr as the most probable value (Massey & Thompson 1991; Knödlseder et al. 2002) .

The Cygnus OB2  region played a remarkable role in the history of stellar X-ray astronomy as an early X-ray observation, performed with the Einstein satellite and analyzed by Harnden et al. (1979), first revealed that early-type stars are intense X-ray emitters. This work was also the first to suggest the idea that X-rays in OB stars are produced in shocks within stellar winds, the starting point for the X-ray emission model of Lucy & White (1980). Subsequent ROSAT, ASCA, and Chandra-HETG observations of massive stars in the Cygnus OB2  region have improved our understanding of the mechanisms responsible for the X-ray emission of O-type stars (Waldron et al. 1998; Kitamoto & Mukai 1996; Waldron et al. 2004).


  \begin{figure}
\par\includegraphics[width=13.9cm,clip]{6101_f1A.ps}\par\includegraphics[width=13.9cm,clip]{6101_f1B.ps}\end{figure} Figure 1: Upper panel: color-coded ACIS-I image of the $17' \times 17'$ field in Cygnus OB2  (see color version in the electronic edition). Kernel smoothing was applied to highlight point sources. Energy bands for the RGB image are [0.5:1.7], [1.7:2.8], and [2.8:8.0] keV for the red, green, and blue colors, respectively. The four panels at the bottom show four $30''\times 20''$ areas of the ACIS field at four different distances from the optical axis: from left to right: 0.7, 4.7, 5.4, and 7 arcmin. They illustrate the dependence of the PSF quality on off-axis and show (black continuous lines) the source photon extraction regions established with ACIS E XTRACT. Figures next to these contours indicate the source identification numbers (from Table 1) and the encircled energy fractions.

These latter studies of the region have focused on the four most known OB-type stars of the region, Cyg#5, 8, 9, and 12, but have left the X-ray properties of the other high-, intermediate-, and low-mass stars in the region unexplored. Indeed the intermediate/low-mass population has not even been identified yet. Because of the much higher X-ray luminosity of young stars (e.g. $\log(L_{\rm
x})\sim30{-}31$ erg/s, for M = 1.0-3.0 $M_\odot$) with respect to older field stars (e.g. Getman et al. 2005a), X-ray observations have proved an efficient tool to select likely members of young Star Forming Regions (SFR). Thanks to its high sensitivity and spatial resolution, the Advanced CCD Imaging Spectrometer (ACIS) camera on board the Chandra satellite (Garmire et al. 2003) is particularly suited for this kind of study in crowded stellar fields such as Cygnus OB2.

In this paper we present the analysis of a deep ($\sim $97.7 ks) Chandra ACIS observation of Cygnus OB2. In Sect. 2 we introduce our X-ray observation and describe our data calibration and reduction procedure. In Sect. 3 we describe source detection, photon extraction and first characterization of X-ray spectra via hardness ratios. In Sect. 4 we characterize our sources by cross-identifying them with available optical and near-IR catalogs. Section 5 deals with X-ray variability while in Sect. 6 the results of the X-ray spectral analysis is presented. In Sect. 7 we discuss out results concerning the X-ray characteristics of high-, intermediate- and low-mass stars of the region. Finally, in Sect. 8 we summarize our results and draw our conclusions.

2 The X-ray observation

Cygnus OB2  was observed with the ACIS detector on board the Chandra X-ray Observatory (CXO) (Weisskopf et al. 2002) on 2004 January 16 (Obs.Id. 4511; PI: E. Flaccomio). The total exposure time was 97.7 ks. The data were acquired in VERY FAINT mode, to ease filtering of background events, with six CCD turned on, the four comprising the ACIS-I array [0, 1, 2, 3], plus CCDs 6 and 7, part of ACIS-S. However, data from the latter two CCDs will not be used in the following because of the much degraded point spread function (PSF) and reduced effective area resulting from their large distance from the optical axis. The ACIS-I $17' \times 17'$ field of view (FOV) is covered by 4 chips each with $1024\times1024$ pixels (scale 0.49'' px-1). The observation was pointed toward RA = 20$^{\rm h}$33$^{\rm m}$12.2$^{\rm s}$ and Dec =+41$^\circ$15'00.7'', chosen to maximize the number of stars in the FOV and to keep two source-dense regions close to the optical axis, where the PSF is sharper. Figure 1 shows Cygnus OB2  as seen in X-rays by our ACIS-I observation.

2.1 Data reduction

Data reduction, starting with the Level 1 event list provided by the pipeline processing at the CXO, was performed using CIAO 3.2.2[*] and the CALDB 3.1.0 set of calibration files. We produced a level 2 event file using the ACIS_PROCESS_EVENT CIAO task, taking advantage of the VF-mode enhanced background filtering, and retaining only events with grades = 0, 2, 3, 4, 6 and status = 0. Photon energies were corrected for the time dependence of the energy gain using the CORR_TGAIN CIAO task. Intervals of background flaring were searched for, but none were found. We will hereafter assume a constant background. To improve the sensitivity to faint sources, given the spectrum of the background and that of typical sources, we filtered out events outside the [500:8000] eV energy band.

An exposure map, needed by the source detection algorithm and to renormalizes source count-rates, was calculated with the CIAO tool MKEXPMAP assuming a monochromatic spectrum (kT=2.0 keV)[*].

3 Analysis

In this section we describe the first steps taken for the analysis of the ACIS-I data. We discuss the detection of X-ray point sources (Sect. 3.1), the definition of source and background event lists (Sect. 3.2), and a first spectral characterization of source spectra through hardness ratios (Sect. 3.3).

   
3.1 X-ray source detection

Source detection was performed with the Palermo Wavelet Detection code, PWDetect[*] (Damiani et al. 1997b), on the level 2 event list restricted to the [500:8000] eV energy band. PWDetect analyzes the data at different spatial scales, allowing the detection of both point-like and moderately extended sources, and efficiently resolving close sources pairs. The most important input parameter is the detection threshold (SNR), which we establish from the relationship between threshold, background level of the observation, and expected number of spurious detections due to Poisson noise, as determined from extensive simulations of source-free fields (cf. Damiani et al. 1997a). The background level was determined with the BACKGROUND command in the XIMAGE[*] package. The method amounts to dividing the image into equal-size boxes, discarding those that, according to several statistical criteria, are contaminated by sources, and finally computing the mean level of the remaining ones. We obtain that our ACIS-I observation comprises a total of about $1.58\times 10^5$ background photons. This background level translates into a SNR threshold of 5.2 if we accept one spurious detection in the FOV, or into ${\it SNR} > 4.5$ if we accept 10 spurious detections. The first choice results in the detection of 868 sources and the second one in 1054 sources. By accepting an extra $\sim $9 spurious detections in the FOV we thus gain about 177 new reliable sources. Considering moreover that 10 spurious sources amounts to only $\sim $1% of the total number of detections, we decided to adopt the second less conservative criterion.

After a careful visual inspection of the initial source list, we rejected a total of 51 detections which we considered spurious: 39 were produced by different instrumental artifacts (i.e. out-of-time events, CCD gaps, detector edges, etc.) that were not included in the simulations of source-free fields used to establish the SNR threshold, but that are easily recognized. The remaining 12 were multiple detections of the same sources with different spatial scales[*]. In total, our final list of X-ray sources in the Cygnus OB2   region contains 1003 X-ray detections, 99% of which are expected to be real. The first 7 columns of Table 1 list, for each source: a running source number, name (according to CXC naming convention[*]), sky position (RA and Dec) with relative uncertainty, off-axis angle ($\theta$), significance of the detection (Sig.).

   
3.2 Photon extraction

For further analysis of the detected sources, we used ACIS E XTRACT[*] (AE) v3.79 (Broos et al. 2002), an IDL based package that makes use of TARA[*], CIAO and FTOOLS[*].

The optimal extraction of point source photons is complicated by the non-Gaussian shape of the PSF and by its strong non-uniformity across the ACIS field of view. In particular the width and asymmetry of the PSF depend significantly on the off-axis distance ($\theta$). The PSF is narrow and nearly circular in the inner $\theta\lesssim 5'$ but becomes rapidly broader and more asymmetric at larger off-axis, as demonstrated in the bottom panel of Fig. 1 where we show sources detected in our data at four different off-axis angles.

Extraction from circular regions containing a large fraction (e.g. 99%) of the PSF would guarantee to collect almost all source photons. However, given the extended wings of the PSF, very large regions would be needed, incurring in the risk of contamination from nearby sources, especially in crowded fields like ours. Moreover the resulting inclusion of a large number of background events would reduce the signal to noise of weak sources. On the other hand, extraction from regions that are too small may reduce the photon statistic for further spectral and timing analysis.

In order to tackle this problem, AE begins with calculating the shape of the model PSF at each source position using the CIAO task MKPSF. It then refines the initial source positions (in our case estimated by PWDetect assuming a symmetric PSF) by correlating the source images with the model PSFs. Following AE science hints[*], this last procedure was only used for those sources lying at off-axis larger than 5 arcmin (464 sources), while for the rest of the source (539 sources) we simply adopt data-mean positions. Coordinates listed in Table 1, as well as their 1$\sigma $ uncertainties, are the result of this process. We verified that these positions are an improvement over those computed by PWDetect, especially at large off-axis angles, comparing the offsets between X-ray sources and counterparts in the 2MASS catalog (see Sect. 4.2).


   
Table 1: Cygnus OB2 X-ray source catalog: first 35 rows. The complete table, containing 1003 rows is available in the electronic edition of the journal.
$N_{\rm x}$ NAME RA Dec Error $\theta$ Sig. Area PSF Cts Exp. Time Count Rates ( $\times 10^{-3}$ ctn s-1) $\overline E_{\rm x}$ Var.
# CXOCYG J+ [h:m:s] [d:m:s] ('') (') ($\sigma $) (px.) (%) (ph.) (ks) Tot. Soft Med. Hard (keV) log( $P_{\rm ks}$)
1 203225.09+411019.6 20:32:25.09 41:10:19.60 0.62 10.03 6.55 1170 0.90 67 87.8255 0.855 0.135 0.233 0.487 3.23 -4.00 $\dag $
2 203225.55+410847.3 20:32:25.55 41:08:47.36 0.70 10.76 6.66 1429 0.89 72 92.9360 0.871 0.620 0.059 0.192 1.35 -0.65
3 203225.97+411054.7 20:32:25.97 41:10:54.77 0.75 9.62 4.28 973 0.90 35 90.9414 0.434 0.099 0.153 0.182 2.37 -0.32
4 203227.51+411358.3 20:32:27.52 41:13:58.37 0.88 8.47 2.30 630 0.89 14 92.5496 0.173 0.004 0.060 0.109 3.18 -0.17
5 203227.62+410831.4 20:32:27.63 41:08:31.46 0.76 10.61 5.92 1420 0.91 55 96.8402 0.637 0.160 0.198 0.278 2.36 -0.00
6 203227.70+411317.0 20:32:27.71 41:13:17.07 0.26 8.55 13.38 618 0.89 216 96.5481 2.521 0.529 0.862 1.130 2.61 -4.00 $\dag $
7 203228.88+410807.5 20:32:28.89 41:08:07.59 0.80 10.67 5.09 1623 0.90 49 96.6863 0.571 0.136 0.167 0.268 2.75 -2.37 $\dag $
8 203229.12+411400.7 20:32:29.12 41:14:00.78 0.55 8.16 4.09 545 0.89 33 92.8669 0.400 0.130 0.078 0.192 2.62 -0.59
9 203229.26+410850.1 20:32:29.26 41:08:50.17 0.59 10.17 6.70 834 0.82 64 92.6690 0.842 0.364 0.202 0.276 2.02 -0.44
10 203229.84+411454.2 20:32:29.85 41:14:54.27 0.50 7.97 5.56 525 0.90 50 93.3914 0.605 0.249 0.185 0.171 2.24 -0.67
11 203229.91+411056.0 20:32:29.92 41:10:56.06 0.72 8.94 2.77 751 0.90 19 92.9014 0.227 0.080 0.058 0.089 2.30 -0.97
12 203230.63+410829.1 20:32:30.64 41:08:29.11 0.58 10.19 8.52 1205 0.90 99 94.5473 1.173 0.320 0.478 0.375 2.14 -0.08
13 203230.63+410854.8 20:32:30.63 41:08:54.82 0.66 9.92 5.21 784 0.83 44 96.4507 0.552 0.067 0.180 0.305 2.93 -1.14 $\dag $
14 203230.88+411029.5 20:32:30.89 41:10:29.53 0.46 8.99 7.08 761 0.90 75 96.5167 0.867 0.063 0.176 0.628 3.42 -0.07
15 203231.39+410955.9 20:32:31.40 41:09:55.98 0.57 9.21 6.16 821 0.90 60 94.7546 0.714 0.259 0.168 0.287 2.27 -0.01
16 203231.42+411335.0 20:32:31.43 41:13:35.01 0.55 7.80 3.85 480 0.90 30 93.4071 0.357 0.039 0.098 0.220 3.01 -0.33
17 203231.53+411407.9 20:32:31.53 41:14:07.98 0.05 7.70 55.14 431 0.89 3173 97.6726 36.534 14.545 13.742 8.247 1.85 -2.83
18 203231.58+411712.5 20:32:31.58 41:17:12.52 0.73 7.95 2.01 517 0.90 12 92.8637 0.145 0.007 0.049 0.089 3.10 -0.04
19 203232.32+411507.3 20:32:32.32 41:15:07.30 0.56 7.50 3.55 418 0.89 25 94.0133 0.306 0.031 0.097 0.177 3.23 -0.02
20 203232.44+411312.3 20:32:32.45 41:13:12.36 0.43 7.69 5.60 413 0.89 49 93.2124 0.592 0.112 0.202 0.278 2.64 -2.69 $\dag $
21 203233.28+411058.8 20:32:33.29 41:10:58.88 0.75 8.36 2.82 575 0.90 18 88.3312 0.230 0.162 0.034 0.034 1.15 -0.44
22 203233.47+411218.0 20:32:33.48 41:12:18.04 0.49 7.77 4.49 459 0.90 34 91.7675 0.415 0.177 0.127 0.111 1.82 -0.04
23 203233.53+411405.7 20:32:33.54 41:14:05.74 0.38 7.33 5.47 364 0.90 50 95.7566 0.593 0.199 0.201 0.193 1.92 -0.49
24 203234.33+411506.3 20:32:34.34 41:15:06.33 0.54 7.12 3.71 350 0.90 26 94.3211 0.311 0.074 0.056 0.181 3.52 -0.44
25 203234.45+411154.7 20:32:34.45 41:11:54.74 0.58 7.75 3.96 446 0.90 27 94.8080 0.326 0.061 0.203 0.062 2.06 -0.26
26 203235.17+411143.4 20:32:35.18 41:11:43.48 0.47 7.70 4.97 430 0.90 39 91.6010 0.475 0.196 0.159 0.120 1.96 -0.03
27 203235.65+411509.5 20:32:35.65 41:15:09.50 0.33 6.88 7.09 312 0.90 70 96.3691 0.815 0.228 0.368 0.219 2.10 -1.17
28 203235.86+411248.4 20:32:35.87 41:12:48.42 0.37 7.18 5.22 340 0.90 43 93.8249 0.519 0.083 0.289 0.147 2.04 -2.14 $\dag $
29 203235.96+412135.6 20:32:35.97 41:21:35.64 0.78 9.47 4.51 669 0.83 33 95.8351 0.413 0.190 0.064 0.159 1.85 -0.11
30 203236.32+411900.7 20:32:36.32 41:19:00.76 0.47 7.84 4.96 489 0.90 41 94.6415 0.484 0.209 0.129 0.146 1.76 -0.44
31 203236.38+411831.0 20:32:36.39 41:18:31.08 0.62 7.59 3.81 403 0.89 26 90.0839 0.333 0.242 0.060 0.032 1.41 -1.46
32 203236.50+411810.3 20:32:36.50 41:18:10.36 0.67 7.42 3.78 376 0.89 26 91.6356 0.320 0.115 0.112 0.093 1.90 -1.55
33 203236.62+412214.5 20:32:36.63 41:22:14.52 0.26 9.85 14.02 689 0.81 232 97.5187 2.949 1.112 0.835 1.002 1.93 -4.00 $\dag $
34 203236.86+411944.6 20:32:36.86 41:19:44.62 0.40 8.16 7.22 544 0.90 74 97.0381 0.859 0.295 0.288 0.277 1.86 -0.83
35 203236.84+412146.1 20:32:36.85 41:21:46.11 0.56 9.48 5.65 660 0.83 46 95.1661 0.592 0.278 0.162 0.153 1.82 -1.24

Notes - $\dag $: flare-like sources.



  \begin{figure}
\par\includegraphics[width=16.7cm,clip]{6101_f2.ps}\end{figure} Figure 2: X-ray color-color diagrams for our ACIS sources. The three panels refer to sources in three ranges of detected counts, as indicated in the upper-left corners. Colors are defined for three energy bands: Soft (0.5-1.7 keV), Medium (1.7-2.8 keV) and Hard (2.8-8.0 keV) keV. The grids refer to predicted colors for Raymond-Smith thermal emission models with different temperatures (kT = 0.5, 1.0, 2.0, 4.0, and 8.0 keV) and affected by varying amounts of absorption, $N_{\rm H}=0.01$, 0.5, 1.0, 2.5, 5, and $10 \times 10^{22}$ cm-2. Boxes refer to known O- and early B-type stars. Note that the dispersion of points is larger for low-statistics sources. Typical 1$\sigma $ error bars are plotted in the right-bottom part of each panel.

After re-computing positions, AE defines source extraction regions as polygonal contours of the model PSF containing a specified fraction of source events ( $f_{\rm PSF}$). Generally, we chose $f_{\rm PSF}=90\%$, and computed the contours from the PSF for a mono-energetic source with E = 1.49 keV. For $\sim $8% of the sources in the denser parts of the Cygnus OB2  field this fraction was reduced to avoid contamination with other nearby sources, in the most extreme cases down to $f_{\rm PSF} \sim40\%$. The four panels at the bottom of Fig. 1 show examples of extraction regions. Otherwise, we have detected only six sources: Id.# 17, 60, 488, 544, 568, 729 that suffers of a pile-up fraction ( $f_{\rm pile-up}$) of 3.96%, 17.7%, 11.6%, 2.39%, 15.6% and 4.6%, respectively. In these cases, we extracted events in annular regions that exclude the PSF cores for all sources that exhibits a $f_{\rm pile-up}$greater than 2%. The inner radii was fixed at 2 arcsec[*], while the outer circles were choosen as the smallest that inscribe the $f_{\rm
PSF}=99\%$ contours.

Although the ACIS-I instrumental background level is spatially quite uniform, the actual observed background varies substantially across the crowded Cygnus OB2   field due to the extended PSF wings of bright sources and to their readout trails. The background was therefore estimated locally for each source, adopting once again the automated procedure implemented in AE, which defines background extraction regions as circular annuli with inner radii 1.1 times the maximum distance between the source and the 99% PSF contour, and outer radii defined so that the regions contain more than 100 "background'' events. In order to exclude contamination of the regions by nearby sources, background events are defined from a "swiss cheese'' image that excludes events within the inner annuli radii of all the 1003 sources.

Results of the photon extraction procedure are listed in Cols. 8-16 of Table 1. We give: the source extraction area (Col. 8); the PSF fraction within the extraction area, assuming E=1.49 keV (9); the background-corrected extracted source counts in the 0.5-8.0 keV band (10); the exposure time (11), the count rates (CR) in four spectral bands computed as the ratio between the source photons (corrected for $f_{\rm PSF}$) and the exposure time (12-15); the median photon energy ( $\overline E_{\rm x}$), (16).

In summary, our 1003 X-ray detections span a wide count range, from 4 to $\sim $15 000 photons. Most sources are faint (e.g. 42% have less than 20 photons). The lower envelope of the counts vs. off-axis plot (not shown) indicates that the minimum number of photons necessary for detection ranges from 4 on axis to $\sim $20 close to the detector corners ($\theta=10$ arcmin).

   
3.3 X-ray hardness ratios

In order to characterize the X-ray spectra of low-statistic sources it is common practice to use the ratios of source counts in different spectral bands, i.e. X-ray hardness ratios (XHR), or the logarithm of these values which can be considered "X-ray colors'' (Prestwich et al. 2003; Schulz et al. 1989).

We use this method, dividing the full energy range into three bands: Soft ($S_{\rm x}$: 0.5-1.7 keV), Medium ($M_{\rm x}$: 1.7-2.8 keV) and Hard ($H_{\rm
x}$: 2.8-8.0 keV). Figure 2 shows, separately for sources in three detected counts ranges, the "Hard X-ray color'' ( $\log [M_{\rm x}/H_{\rm
x}]$) vs. the "Soft X-ray color'' ( $\log [S_{\rm x}/M_{\rm x}]$). For reference we also plot the predicted loci for absorbed thermal sources with plasma temperatures between 0.5 and 8.0 keV and $N_{\rm H}$ between 1020and 1023 cm-2. The grid was calculated with the Portable Interactive Multi-Mission Simulator (PIMMS[*]) for a Raymond-Smith (RS) emission model (Raymond & Smith 1977).

A comparison of the three panels in Fig. 2 shows that the position of sources with respect to the $kT - N_{\rm H}$ grid is significantly affected, other than by the source spectra, by the source statistic. The positions of individual sources with less than 20 counts (left panel) are, for example, considerably spread out because of large statistical uncertainties. Sources with higher statistics ( $\rm 20\leq NetCnts \leq 50$, central panel) are more concentrated around $kT \sim 2.0$ keV and $N_{\rm
H}\sim 2.3 \times 10^{22}$ cm-2. Sources with more than 50 photons (right panel) are even more concentrated around these same values of kT and $N_{\rm H}$. A separate group of soft-spectrum sources however becomes visible in the upper part of the grid, with typical $kT\sim0.8$ keV. Most of these sources are associated with known early type stars, indicated by squares in Fig. 2. Others, with somewhat smaller $N_{\rm H}$, are likely foreground stars as also argued in Sect. 4.2.


   
Table 2: Near-IR counterparts of Cygnus OB2 X-ray sources and near-IR stellar parameters: first rows. The complete version is available in the electronic edition of the journal.
$N_{\rm x}$ X-ray - 2MASS counterpart Off. 2MASS photometry $A_{\rm v}^\ddag $
# CXOAC J+ 2MASS J+ ('') J H $K_{\rm s}$ Ph. qual$^\dag $ (mag)
1 203225.09+411019.6 - - - - - - -
2 203225.55+410847.3 20322545+4108473 1.56 14.76 $\pm$ 0.06 14.23 $\pm$ 0.07 13.95 $\pm$ 0.07 AAA 8.54
3 203225.97+411054.7 20322597+4110547 0.24 15.24 $\pm$ 0.05 13.65 $\pm$ 0.03 12.69 $\pm$ 0.03 AAA 7.71
4 203227.51+411358.3 20322756+4114001 1.61 16.00 $\pm$ 0.06 14.46 $\pm$ 0.04 13.90 $\pm$ 0.06 AAA 0.16
5 203227.62+410831.4 20322754+4108336 2.41 15.91 $\pm$ 0.06 14.39 $\pm$ 0.03 13.82 $\pm$ 0.05 AAA N/A
6 203227.70+411317.0 20322768+4113169 0.58 14.96 $\pm$ 0.03 13.49 $\pm$ 0.02 12.88 $\pm$ 0.03 AAA 2.21
7 203228.88+410807.5 - - - - - - -
8 203229.12+411400.7 20322913+4114012 0.26 16.74 $\pm$ 0.16 15.36 $\pm$ 0.08 14.72 $\pm$ 0.11 CAB 9.01
9 203229.26+410850.1 20322928+4108494 1.03 12.26 $\pm$ 0.01 11.49 $\pm$ 0.01 11.07 $\pm$ 0.01 AAA 8.52
10 203229.84+411454.2 20322985+4114536 0.83 17.44 15.43 $\pm$ 0.10 14.37 $\pm$ 0.09 UAA N/A
11 203229.91+411056.0 20322994+4110575 1.29 15.26 $\pm$ 0.05 14.04 $\pm$ 0.04 13.53 $\pm$ 0.04 AAA N/A
12 203230.63+410829.1 20323051+4108284 2.19 15.47 $\pm$ 0.07 13.71 13.09 AUU 4.19
13 203230.63+410854.8 20323064+4108565 1.49 15.31 $\pm$ 0.05 13.68 $\pm$ 0.03 13.01 $\pm$ 0.03 AAA 5.43
14 203230.88+411029.5 - - - - - - -
15 203231.39+410955.9 20323143+4109558 0.58 14.52 $\pm$ 0.05 13.04 12.46 AUU 9.69
\dag 2MASS photometric quality flags for the J, H and, $K_{\rm s}$ bands: "A'' to "D'' indicate decreasing quality of the measurements, "U'' that the value is an upper limit. See 2MASS documentation for details. \ddagN/A indicates stars with unconstrained $A_{\rm v}$  (see text).

4 Optical and near-IR counterparts

Cygnus OB2  has been the target of numerous optical studies for more than 50 years (Schulte 1958; Johnson & Morgan 1954). Massey & Thompson (1991) identified 120 candidate massive members in an area of about 0.35 deg2, on the basis of UBV photometry, and gave optical spectral classifications for over 70 OB stars. More recently, Hanson (2003) published new spectral classification for 14 more OB candidates, improving the massive star census of Cygnus OB2, and the estimates for its distance (1450 pc) and age ($\sim $2 Myr). A total of 33 OB stars from the catalog of Hanson (2003) lie in the 0.0823 deg2 FOV of our X-ray observation and were thus cross identified with our X-ray source list (Sect. 3.2). Due to the high and variable absorption in the Cygnus OB2  line of sight, and to the relative shallowness of the available optical catalogs, the correlation between X-ray sources and optical catalogs is of limited use for the study of intermediate- and low-mass stars. We thus decided to base our characterization of the X-ray sources mostly on near-IR data, for which the impact of dust extinction is reduced and is comparable to that in the X-ray band. We made use of J (1.25 $\mu$m), H (1.65 $\mu$m) and $K_{\rm s}$ (2.17 $\mu$m) photometry from the Two Micron All Sky Survey (2MASS) Point Source Catalog (PSC)[*]. 2MASS is complete to magnitudes of 15.8, 15.1 and 14.3 mag in the J, H and $K_{\rm s}$ bands, respectively. We limited our analysis to 2MASS sources for which the quality flag for at least one of the three magnitudes is equal to A, B, C or D (cf. the 2MASS All-Sky Data Release User's Guide). With this restriction 11 sources were removed from our initial list of 5061 2MASS point sources in the ACIS FOV, leaving a total of 5050 objects.

4.1 Cross-identification

We began by cross identifying our X-ray source list with the 2MASS catalog. Identification radii, $R_{\rm id}$, were chosen to limit the number of spurious identifications due to chance alignments, $N_{\rm chance}$, and at the same time to include a large number of the true physical associations, $N_{\rm
true}$. First we estimated, as a function of $R_{\rm id}$, the number of chance identifications expected in a given sky area, $A_{\rm search}$, assuming (i) uncorrelated NIR and X-ray positions and (ii) a uniform surface source density of the $N_{\rm 2MASS}$ 2MASS sources lying in the search area:  $N_{\rm
chance}(R_{\rm id})=N_{\rm X}A_{\rm id}N_{\rm 2MASS}/A_{\rm search}$, where $A_{\rm id}=\pi R_{\rm id}^2$ is the area of identification circles. $N_{\rm true}(R_{\rm id}$) can instead be estimated from the observed total number of identifications at any given $R_{\rm id}$ as $N_{\rm id}(R_{\rm
id})-N_{\rm chance}(R_{\rm id}$). We chose the identification radius as the largest for which $N_{\rm true}> N_{\rm chance}$.

Because the Chandra  PSF, and therefore the position uncertainty of X-ray sources, depends mainly on the off-angles, we perform this analysis in four different ranges of off-angles: [0-2), [2-4), [4-7) and >7 arcmin. Our identification radii in these four regions are 1.0, 1.5, 2.1, and 2.7 arcsec, respectively.

Before performing the final identifications we searched for possible systematic differences between the X-ray and 2MASS positions. We first performed a preliminary cross-identification and compared the coordinates of identified pairs. A small systematic offset between the two catalogs was found. We thus shifted the Chandra  coordinates and performed a new cross-identification, repeating this process iteratively until the offset was reduced to $\sim $0.01 arcsec, i.e. much smaller than the statistical errors on source positions. In the end the offset between the two catalogs was: $\Delta$(RA $_{\rm
x-2MASS})=+0.12''\pm0.10''$ and $\Delta$(Dec $_{\rm
x-2MASS}) = +0.49''\pm 0.17''$. The result of the final identification is shown in Table 2, where we list, in the first 7 columns, the X-ray and near-IR identifiers of cross-identified sources, the offset between the two positions, and the J, H, $K_{\rm s}$ magnitudes from 2MASS. A total of 775 X-ray sources out of the 1003 in our list were identified with 2MASS objects. Three X-ray sources (#12, #148, and #449) were identified with two 2MASS objects but, after checking the positions visually, we adopted the closer of the counterparts. The fraction of identified X-ray sources appears to increase as we move to larger off-angles. In the four annular regions defined above, these fractions are: 76/116 (65%), 227/304 (74%), 294/374 (79%) and 178/209 (85%), in order of increasing off-angles. This trend can be attributed to the already mentioned (3.2) dependence of the ACIS-I sensitivity on the off-axis angle and to the fact that more intense X-ray sources are more likely to have a near-IR counterpart than fainter ones.

With respect to the expected number of chance identifications we estimate, for off-axis ranges [0:2), [2:4), [4:7), and >7 arcmin, and with the formula given above, no more than 1.6, 7.9, 16.4, and 12.5, respectively for a total of $\leq$39. Note however that the assumption that X-ray and 2MASS source lists are fully uncorrelated is not true (other than for the 10 expected spurious detections), so that this number should be considered as a loose upper limit (cf. Damiani et al. 2003).

We estimate the expected number of extragalactic sources in our detection list following Flaccomio et al. (2006). We consider the ACIS count-rates of non-stellar sources in the Chandra Deep Field North (CDFN, Barger et al. 2003; Alexander et al. 2003) and estimate absorption corrected count-rates assuming $N_{\rm H}=1.54\times10^{22}$ (from $A_{\rm v}$ = 7.0, see Sect. 4.2) using PIMMS and assuming power-law spectra with index $\Gamma$. We then compare these count rates with upper limits taken at random positions in the ACIS FOV. For $\Gamma$ between 1 and 2 we obtain 61 to 87 expected extragalactic sources. Given the intrinsic near-IR fluxes of these sources and the absorption toward Cygnus OB2, they are expected to be among the 228 without NIR counterparts (cf. Flaccomio et al. 2006).

We identified our X-ray source list with the 33 early type stars listed by Hanson (2003) and lying in our ACIS FOV. Of these, all the 20 O-type stars associated with an X-ray source, while of the 13 B-type stars only 6 are detected.

   
4.2 Near-IR properties of the X-ray sources

We now investigate the NIR properties of the X-ray sources with 2MASS counterparts. For this purpose we restrict our analysis to sources with high quality photometry, i.e. those for which the quality flag (see 2MASS documentation) is "AAA'', or for which uncertainties on the J, H and $K_{\rm s}$ magnitudes are all lower than 0.1 mag. With these requirements the total number of IR sources in the ACIS FOV is reduced from 5050 to 2187. Counterparts of X-ray sources were selected only on the basis of their magnitude errors (<0.1 mag), yielding 519 sources out of the original 775.

Figure 3 shows the J-H vs. $H-K_{\rm s}$ color-color (CC) diagram for all the selected 2MASS objects in the ACIS FOV, both X-ray detected and undetected. We also plot for comparison the MS (Kenyon & Hartmann 1995), the Classical T-Tauri Stars (CTTS) locus of Meyer et al. (1997), and three reddening vectors starting from these loci and with slope ( $A_{\rm Ks}/E(H-K_{\rm s})=0.125$) taken from the extinction law given by Hanson (2003). Cygnus OB2  members with purely photospheric emission should lie in this reddening band. However, as the line of sight toward Cygnus OB2  is not far from that to the Galactic center, many field interlopers are also expected in the same band. Young stellar objects (YSOs), such as Classical T Tauri and Herbig Ae/Be stars, because of the NIR excess emission originating in the inner parts of their circumstellar disks, are often found to the right of this band, i.e. in the CTTS locus.


  \begin{figure}
\par\includegraphics[width=8cm,clip]{6101_f3.ps}\end{figure} Figure 3: ${\it JHK}_{\rm s}$color-color diagram of objects in the $17' \times 17'$ Cygnus OB2  FOV with high quality 2MASS photometry. Filled circles and small points refer to X-ray detected and undetected 2MASS sources, respectively. Detected known O- and B-type stars are indicated by squares. We also show for reference the main-sequence from Kenyon & Hartmann (1995), the CTTS locus of Meyer et al. (1997) and reddening vectors ( dashed lines) with length corresponding to $A_{\rm v}$ = 15 mag. Note: i) the low number of X-ray sources lying in the CTTS loci; ii) the peculiar position of Cyg #12 (labeled), one of most intrinsically luminous stars in the Galaxy, indicative of a high reddening.

However, very few X-ray sources, i.e. likely Cygnus OB2  members, have colors consistent with the (reddened) CTTS locus. If we neglect the uncertainties on data points, 23 sources lie in the reddening band of the CTTS locus. We do not include here the peculiar supergiant B5 Ie Cyg#12 and discuss its nature in Sect. 7.1. A total of 23 stars in the CTTS reddening band means a fraction of 23/ $519\sim 4.4\%$ of all the X-ray sources in the CC diagram. We compare this fraction with the one observed in the ONC, adopting Chandra Orion Ultradeep Project (COUP) sources in the same mass range[*] that we reach in Cygnus OB2  (i.e. $M\geq1$ $M_\odot$, cf. Sect. 7): 19/ $92\sim20.6\%$. The difference between the two fractions of stars with near-IR detected disks is significant, a factor of $\sim $4.7. It could be for two different reasons:

-
Cygnus OB2  is older than the ONC ($\sim $2 vs. $\sim $1 Myr) and its disks might have dissipated. According to Hillenbrand (2005), the fraction of stars with disks detectable in the near-IR should decrease between 1 and 2 Myr by a factor of 2-3. This, together with the statistical uncertainties in the disk fractions might explain the observed difference[*].

-
The effect of disk photo-evaporation by the intense UV radiation field of the hot massive OB stars. This mechanism, predicted theoretically (e.g. Adams et al. 2004) and observed, e.g., in the ONC proplyds (e.g. Bally et al. 2000), is thought to be effective in massive star forming regions, such as Cygnus OB2, having a large number of UV emitting O- and B-type stars. A shortening of the disk lifetime with decreasing distance from O- stars has been recently observed in the massive star forming region NGC 6611 (Guarcello et al. 2006, in prep.).


  \begin{figure}
\par\includegraphics[width=8.4cm,clip]{6101_f4.ps}\end{figure} Figure 4: CM diagrams of the Cygnus OB2  region. Symbols as in Fig. 3. The two parallel curves indicate the expected cluster loci for the assumed distance and for a mean reddening of $A_{\rm V}=0.0$ and 7.0 mag. They represent the MS for (un-reddened) $K_{\rm s0}<10.3$ and the 2 Myr isochrone for fainter magnitudes.

Figure 4 shows the $K_{\rm s}$ vs. $H-K_{\rm s}$ color magnitude (CM) diagram for the same stars plotted in Fig. 3. We also show for reference the expected cluster locus: the intrinsic $K_{\rm s}$ magnitudes and $H-K_{\rm s}$ colors for stars earlier than B5V were taken from the MS calibration of Knödlseder (2000) and Bessell & Brett (1989). For later spectral types (masses between 0.1 and $7~ M_\odot$), we adopted the 2 Myr isochrone from Siess et al. (2000), converted to the observational plane using the calibration given by Kenyon & Hartmann (1995). The adopted MS and 2 Myr isochrone overlap satisfactorily.

In order to estimate the typical visual absorption of cluster members we calculated the distance of each X-ray source to the cluster locus along the reddening direction. Resulting $A_{\rm v}$  values for individual sources are listed in the last column of Table 2. Note that for $10.25< K_{\rm
s0}<11.35$ the absorption cannot be constrained because the reddening vector intersects the cluster locus more than once. We computed median absorption values in two luminosity ranges: for $K_{\rm s0}>11.35$ we obtained $A_{\rm v}$ =7.0 mag, while for $K_{\rm s0}<10.25$, considering only the known OB stars, we obtained $A_{\rm v}$ = 5.63 mag. We note that the above estimations depend on the reliability of the assumed cluster locus and on the assumption that the H and K magnitudes are not significantly affected by disk-induced excesses. As observed above, given the paucity of stars with excesses, the latter appears to be a good approximation for Cygnus OB2  stars. It is comforting that our estimate for the OB type stars is in fairly good agreement with the median of the extinctions computed by Hanson (2003) using photometric and spectroscopic data: $A_{\rm v}$ = 5.7 mag. The lower extinction derived for high mass stars than to lower mass ones may indicate that the strong winds and radiation field of massive stars may have cleared their surrounding environment.

In both the CC and CM diagrams, some X-ray sources, of the order of 15-20, lie close to the un-reddened cluster loci. These are likely to be foreground MS stars and thus to contaminate the sample of X-ray detected cluster members. This conclusion is corroborated by the X-ray hardness-ratio analysis: eight of these stars have soft and relatively unabsorbed spectra (the stars to the right of the OB stars, in the upper-right corner of Fig. 2-right), as expected from foreground field stars.

In the following (Sect. 7) we will correlate the X-ray properties of our sources with stellar parameters derived from the available optical and near-IR data. We obtain an estimate of stellar masses for 682 2MASS counterparts from the J-band magnitudes (limited to quality flags "A'' to "D'') and the mass vs. J mag. relationship appropriate for the cluster age, distance and extinction, obtained as described above for the cluster locus in the H, H-K diagram[*]. The relation is degenerate in two ranges of J, corresponding to $0.2{-}0.4~M_\odot$ and $2.8{-}5.3~M_\odot$. Four and 28 X-ray detected stars lie in these ranges, respectively.

   
5 Temporal variability

The temporal variability of young low mass sources is often complex: the most common phenomena are magnetic flares with rapid rise and slower decays, superposed on an apparently constant or, sometimes, rotationally modulated emission (Flaccomio et al. 2005; Wolk et al. 2005). Other forms of variability, with less clear physical origin, are often observed.

We first investigated X-ray variability using the non-binned one-sample Kolmogorov-Smirnov (KS) test (Press et al. 1992). This test compares the distribution of photon arrival times with that expected for a constant source. The test was applied to photons in the source extraction regions, which also contain background photons. Given that the background was found to be low and constant (Sect. 2.1), the results, i.e. the confidence with which we can reject the hypothesis that the flux was constant during our observation, can be attributed to the source photons. Table 1, Col. 17, reports the logarithm of the KS-test significance with values < -4 truncated at that value: sources with log( $P_{\rm KS}$) < -3.0 can be considered almost definitively variable as we expect at most one of the 1003 sources (i.e. 0.1%) to be erroneously classified as variable. Eighty-five X-ray sources ($\approx$8.5% of the total) fall in this category. Sources with $-2.0<\log$ ( $P_{\rm KS}$) < -3.0 can be considered as likely variable, but up to 9 such sources (on average) might actually be constant. Forty-nine Cygnus OB2  sources fall in this category.

These numbers of sources in which variability is detected are a lower limit to the total number of variable sources in the region for several reasons: i) most of the observed variability is in the form of flares, i.e. events that are shorter than our observation and with a duty-cycle that may be considerably longer (Wolk et al. 2005); ii) the sensitivity of statistical tests to time variability of a given relative amplitude depends critically on photon statistics. This is illustrated in Fig. 5, where we plot the fraction of variable sources as a function of source counts: the clear correlation between the two quantities is most likely due to this statistical bias even though we cannot exclude a real dependence.


  \begin{figure}
\par\includegraphics[width=7.7cm,clip]{6101_f5.ps}\end{figure} Figure 5: Fraction of variable sources as a function of source counts. Horizontal bars indicate the range of source counts. Filled circles indicate, for each counts bin, the fraction of sources with log( $P_{\rm KS}$) < -3.0 (85 sources in total), while the upper tip of the vertical bars indicate the fraction with log( $P_{\rm KS}$) < -2.0 (134 sources in total). The continuous and dashed horizontal lines indicate the overall (average) variability fractions obtained for the two confidence levels.

Next, we extracted binned light-curves for each of our Cygnus OB2  X-ray sources adopting a bin length of 600 s, a compromise between bins that are long enough to reach a good signal-to-noise ratio per bin for most sources and sufficiently short to resolve the decay phase of typical flares. Since the background of our observation is both low (negligible for many sources) and constant, we did not apply any background subtraction. We inspected the 857 light-curves of sources with >10 photons, finding flare-like events, qualitatively defined as a rapid rise and a slow decay, in 98 sources, i.e. $\approx$9.8% of the cases. These sources are indicated by a $\dag $ in the last column of Table 1. Of these 98 sources, 66 ($\sim $65%) have a log( $P_{\rm KS}$$\leq$ -3.0, while 13 were classified as probably variable ($-2.0<\log$  $P_{\rm KS}\leq -3.0$). The remaining 19 sources were not detected as variable by the KS test (log $P_{\rm KS} >-2.0$) and may or may not be actually "flaring''. Figure 6 shows light-curves for 20 variable sources, 14 of which are classified as flaring. Some of these sources (e.g. #1, #676 and #911) experience "impulsive'' flares with very quick rises and decay phases of only a few hours. Others (e.g. #33, #172, and #260) show longer (2 to 10 h) flares. In several instances a second impulsive event is visible during the exponential decay of a previous flare (e.g. sources #6, #52, #439, #600, #796, and #945). Other sources (e.g. #555, #834 and #863) have variable light-curves that bear little resemblance to typical flares and are instead characterized by slow continuous rises or decays that might be explained by rotational modulation of non-homogeneously distributed plasma (Flaccomio et al. 2005).

As expected if flares originate from magnetic reconnection events (Favata & Micela 2003), the median photon energies for flaring sources are generally higher than those of non-flaring sources: the distribution of median energies for the flaring source peaks at $\overline
E_x \approx2.6$ keV, with a 1$\sigma $ dispersion of 0.4 keV, while for non-variable stars it peaks at $\overline E_x \approx2.1$ keV, with a 1$\sigma $ dispersion of 0.3 keV. A similar conclusion can be drawn from the spectral modeling presented in the next section (Sect. 6): flaring sources often require higher temperature models than non-variable ones.

The variability of massive O and early B-type stars is significantly different from that of low mass members. Among the 26 OB stars detected in our FOV, 24 are classified as non-variable (log( $P_{\rm KS}$) > -2.0), in spite of their higher than average statistics, having between $\sim $40 and 15 000 counts, with a median of $\sim $111 counts. A comparison with Fig. 5 shows that the variabile fraction of OB stars (7.7%) is significantly lower than for the bulk of our sources with similar statistics. This finding agrees with the common view of X-ray emission from O stars, which is believed to be unrelated to solar-like magnetic activity, and rather is explained as the integrated emission from a large number of small shocks occurring in the strong winds of these stars (Feldmeier et al. 1997; Owocki & Cohen 1999). Interestingly however, two of these sources, #60 and #979, are significantly variable, with log( $P_{\rm KS}$) values lower than -4. Figure 7 shows their light-curves.

Source #60 (Cyg#12) is a B5 Ie star (Hanson 2003). The X-ray light-curve shows a roughly linear decay of the ACIS count rate from $\approx$0.18 cnt s-1 to $\approx$0.16 cnt s-1. The star was observed by Waldron et al. (1998) who did not report variability during $\sim $125 ks of non-continuous ROSAT PSPC observation. This kind of variability may be similar to the rotational modulation observed on the O7 star $\theta$ Ori C (Gagné et al. 2005) and is attributed to the presence of a rigidly rotating magnetosphere (RRM), which may form in magnetic early-type stars with misaligned magnetic and rotation axe (Owocki et al. 2005). We defer further discussion of the nature of Cyg #12 to Sect. 7.1.

Source #979 is identified as star #646 in Hanson (2003) and there is classified as a B1.5V + ? star, the question mark indicating the presence of an unresolved faint secondary. The observed variable X-ray emission is much fainter than in the previous case and might be due to the magnetic activity of the companion of the B1.5 V primary, presumably a lower mass star.


  \begin{figure}
\par\includegraphics[width=16.6cm,clip]{6101_f6.ps}\end{figure} Figure 6: Light curves (in the 0.5-8.0 keV band) for 20 sources with variable emission during our 97.7 ks Chandra  observation. The bin length is 600 s. Source numbers are given in the upper-left corner of each panel, followed by an "f'' for sources classified as flaring.


  \begin{figure}
\par\includegraphics[width=7.2cm,clip]{6101_f7A.ps}\hspace*{3mm}
\includegraphics[width=7.3cm,clip]{6101_f7B.ps}\end{figure} Figure 7: Light curves in the 0.5-8.0 keV band for the two variable early-type stars: Left: source Id. #60, known as a B5Ie, has been recently classified a $\rm B5\pm 0.5$ Ia+ star by Klochkova & Chentsov (2004). X-ray variability of this star was unknown until now. The time bin-size is 900 s. Right: source Id. #979 is probably a B1.5 V+"?'' binary system (Massey & Thompson 1991). The time bin size here is 1300 s. Source number and results of the KS test are given in the legend.

   
6 Spectral analysis

In order to characterize the hot plasma responsible for the X-ray emission of Cygnus OB2  stars, and to estimate their intrinsic X-ray luminosities, we analyzed the ACIS spectra of each of our 1003 sources. Reduced source and background spectra in the 0.5-8.0 keV band were produced with AE (see Sect. 3.2), along with individual "redistribution matrices files'' (RMF) and "ancillary response files'' (ARF). For model fitting, spectra were grouped so to have a specified number of events in each energy bin. Grouping was tuned to the source statistics and we chose 2, 5, 7, 10, and 60 counts per channel for sources with net-counts in the following ranges: [0-40], [40-100], [100-200], [200-500], and [500-16 000]. Spectral fitting of background-subtracted spectra was performed with XSPEC v12.0 (Arnaud 2004) and our own shell and TCL scripts to automate the process as described in Flaccomio et al. (2006). Best fit parameters for the chosen models were found by $\chi^2$ minimization.

We fit our spectra assuming emission by a thermal plasma, in collisional ionization equilibrium, as modeled by the APEC code (Smith et al. 2001). Elemental abundances are not easily constrained with low-statistic spectra and were fixed at $Z=0.3~ Z_\odot$, with solar abundances taken from Anders & Grevesse (1989). The choice of sub-solar abundances is suggested by several X-ray studies of star forming regions (e.g. Preibisch 2003; Feigelson et al. 2002). Absorption was accounted for using the WABS model, parametrized by the hydrogen column density, $N_{\rm H}$ (Morrison & McCammon 1983).


  \begin{figure}
\par\includegraphics[width=8.2cm,clip]{6101_f8.ps}\end{figure} Figure 8: Median $N_{\rm H}$and kT vs. source counts for sources fit with one-temperature models. Filled and empty squares indicate the average values of the $N_{\rm H}$ and kT in each considered count range with vertical scales given on the right and left-hand side, respectively. The extent of the count ranges is indicated by the horizontal error bars. Vertical error bars indicate the median of the 1$\sigma $uncertainties on the two parameters. For this plot we only considered $N_{\rm H}$ and kT values with formal relative errors smaller than 90%. The hatched area below 20 counts indicates the count-range in which spectral fits were discarded because of strong biases in the best fit parameters.

Except for X-ray sources associated with O- and early B-type stars, which are discussed separately in Sect. 7.1, we fit source spectra with one-temperature (1T) plasma models using an automated procedure. In order to reduce the risk of finding a relative minimum in the $\chi^2$ spaces, our procedure chooses the best fit among several obtained starting from a grid of initial values of the model parameters: log($N_{\rm H}$) = 21.0, 21.7, 22.0, 22.4, 22.7 and 23.0 cm-2 and kT = 0.5, 0.75, 1.0, 2.0, 5.0 keV. Best fit values of log($N_{\rm H}$) < 20.8 cm-2 were truncated at 20.8 because, in the 0.5-8.0 keV energy range, ACIS spectra are insensitive to lower column densities. For the same reason, 154 best fit values of kT turned out to be >10 keV and were truncated at that value.

As noted by many authors (e.g. Getman et al. 2002,2005b; Flaccomio et al. 2006), the spectral fitting of low statistic ACIS sources is problematic because of a degeneracy between plasma temperature and absorption. The degeneracy also results in a systematic bias: kT values are often underestimated by as much as $\sim $50% while $N_{\rm H}$ values are overestimated. We investigated this issue with our data by considering the distributions of the best fit parameters for source in different count-statistic bins. Figure 8 shows the run of mean kT and $N_{\rm H}$ with source counts for spectra fitted with 1T models. The systematic decrease of $N_{\rm H}$ and the increase of kT with increasing source statistics are hardly explainable as physical effects and rather indicate that the spectral parameters obtained for sources with less than $\sim $20 photons are ill-constrained.

The uncertainty on the $N_{\rm H}$ is particularly serious as it implies large and systematic uncertainties on the absorption-corrected X-ray luminosities. In order to reduce the risk of erroneous results, we discarded from the following analysis results for source with <20 net photons, a total of 423 sources. Table 3 presents the results of the automated 1T spectral fits for 554 sources (the results of the spectral fitting for the 26 sources associated with known OB stars will be presented in Sect. 7.1, Table 4). We list source numbers (Col. 1) from Tables 1 and 2, background subtracted counts in the spectra (2), the best fit hydrogen column densities and their 1$\sigma $ errors (3), the plasma temperatures and their 1$\sigma $ errors (4), and the emission measures (5). Columns (6) and (7) give the reduced $\chi^2_\nu$ for the spectral fits and the relative degrees of freedom, respectively.


   
Table 3: Results of X-ray spectral fits: first rows. The complete version is available in the electronic edition of the Journal.
$N_{\rm x}$ Cnts log($N_{\rm H}$) kT log(EM) Stat. d.o.f.
# (ph.) (cm-2) (keV) (cm-3) ( $\chi^2_\nu$)  
1 67 22.13 $\pm$ 0.26 9.99 53.70 0.34 17
2 72 21.05 $\pm$ 0.34 0.74 $\pm$ 0.12 53.40 1.54 17
3 35 21.75 $\pm$ 0.03 9.99 53.40 0.38 9
5 55 22.15 $\pm$ 0.27 6.05 $\pm$ 8.52 53.40 0.81 14
6 216 22.13 $\pm$ 0.68 5.52 $\pm$ 3.06 54.10 0.96 19
7 49 21.86 $\pm$ 0.04 9.99 53.40 0.78 15
8 33 21.70 $\pm$ 0.08 9.99 53.40 0.51 9
9 64 21.44 $\pm$ 0.03 9.99 53.40 0.76 14
10 50 21.60 $\pm$ 0.10 1.04 $\pm$ 0.23 53.40 1.00 12
12 99 22.14 $\pm$ 0.47 2.19 $\pm$ 0.91 53.88 1.02 24
13 44 22.42 $\pm$ 0.29 3.74 $\pm$ 3.87 53.70 1.20 10
14 75 22.51 $\pm$ 0.30 9.99 53.70 1.10 19
15 60 21.90 $\pm$ 0.24 6.85 $\pm$ 8.19 53.40 0.66 14
16 30 22.53 $\pm$ 0.10 2.72 $\pm$ 2.67 53.70 0.82 7
17 3173 22.16 $\pm$ 0.25 1.34 $\pm$ 0.64 55.65 1.57 252
19 25 22.48 $\pm$ 0.15 3.43 $\pm$ 4.19 53.40 0.56 6
20 49 22.26 $\pm$ 0.30 3.04 $\pm$ 1.86 53.70 0.72 11

The hydrogen column densities derived from X-ray spectral fitting depend of the interstellar material in the line of sight to the Cygnus OB2  cloud and on the location of stars within the cloud material of Cygnus OB2. Figure 9a shows the distribution of log $N_{\rm H}$ values for the 580 sources with more than 20 counts. They appear to be normally distributed with a median log  $N_{\rm H}\sim 22.25$ (cm-2) and a FWHM of $\sim $0.21 dex. The shaded area in Fig. 9a indicates an apparent excess of relatively unabsorbed sources (log  $N_{\rm H}<21.8$ cm-2) with respect to the log-normal distribution of the bulk of the sources. These $\sim $23 sources are likely associated with foreground stars. Most of these sources seem to be spatially distributed uniformly in the FOV of the Cygnus OB2  region.

Another interesting observation is that the $N_{\rm H}$ distribution of the 106 X-ray sources without near-IR counterparts (dark gray histogram in Fig. 9) seems to be skewed toward higher values than the global distribution. For example, while only 11% of the X-ray sources with counterparts have $N_{\rm H}>22.5$, this is true for 29 (27%) of the unidentified sources.

According to the relationship between $N_{\rm H}$ and $A_{\rm V}$, $N_{\rm
H} =2.2 \times 10^{21}$ $A_{\rm v}$  cm-2 (Ryter 1996), the median $N_{\rm H}$ of all detected sources with more than 20 counts corresponds to $A_{\rm v}$ $\sim $ 8.1 12.85.1 mag. If we only consider the sources with near-IR counterparts (and > than 20 counts) we obtain log  $N_{\rm H}=22.23$, which corresponds to $A_{\rm v}$ =7.7 mag, i.e. in reasonable agreement with the value calculated from the NIR CMD ($A_{\rm v}$ $\approx$ 7.0 mag).

Figure 9(b) shows the distribution of plasma temperatures: it peaks at $\sim $1.35 keV, has a median $\sim $2.4 keV and shows an extended hard tail. Variable sources (log  $P_{\rm KS}<-2$) have harder spectra with median kT=3.3 keV and flaring sources (see hatched histogram in Fig. 9b) are even harder with a median kT=3.75 keV.

We derived unabsorbed X-ray luminosities for each of our sources. For O and B-type stars, discussed in detail below (Sect. 7.1), luminosities were derived from individual spectral fits. For the other sources, given the considerable uncertainties in the absorption estimates, especially at the faint end, we preferred not to use the results of spectral fits individually. Rather, we computed a single count-rate to $L_{\rm X}$ conversion factor that takes into consideration the average intrinsic source spectrum and interstellar absorption. This conversion factor, computed as the median ratio between the individual unabsorbed X-ray luminosities (from the best fit spectral models) and the source count-rates is $7.92 \times10^{33}$ ergs.


   
Table 4: X-ray spectral parameters of the Cygnus OB2  OB-type stars.
Src. Optical Parameters $\chi_\nu^2$ Pile-up $N_{\rm H}$[ $\times 10^{22}$] [cm-2] kT1 kT2 Abundance Flux [10-13]
# Hanson# S.T.   (%) WABS ABSORI [keV] [keV] [$Z_\odot$] [erg s-1 cm-2]
60b 304 B5 Ie 1.4 $\sim $18 2.15 $\pm$ 0.15 0.87 $\pm$ 0.12 0.63 $\pm$ 0.03 1.56 $\pm$ 0.11 0.43 $\pm$ 0.04 $\rm 235.4^{255.4}_{201.7}$
133 339 O8.5 V 1.1 no 0.24 $\pm$ 0.18 - 1.53 $\pm$ 0.68 - (0.3) $\rm0.11^{0.19}_{0.07}$
253 378 B0 V 1.0 no 3.57 $\pm$ 0.09 - 0.43 $\pm$ 0.15 - (0.3) $\rm 2.00^{2.21}_{1.42}$
315 390 O8 V 0.8 no 3.30 $\pm$ 0.08 - 0.44 $\pm$ 0.10 - 0.15 $\pm$ 0.09 $\rm0.64^{0.73}_{0.51}$
433 417 O4 III(f) 1.5 $\lesssim$2 2.30 $\pm$ 0.07 - 0.39 $\pm$ 0.06 1.94 $\pm$ 0.73 0.60 $\pm$ 0.34 $\rm 42.1^{45.3}_{34.6}$
456 421 O9.5 V 1.4 no 1.45 $\pm$ 0.08 - 1.71 $\pm$ 1.02 - (0.30) 1.06 0.881.09
488b 431 O5 If 1.3 $\sim $12 2.09 $\pm$ 0.07 - 0.79 $\pm$ 0.05 2.82 $\pm$ 0.61 0.65 $\pm$ 0.10 $\rm 72.6^{75.5}_{67.5}$
530 448 O6 V 1.4 no 1.97 $\pm$ 0.34 - 0.65 $\pm$ 0.20 - (0.1) $\rm 1.18^{1.39}_{0.96}$
537 455 O8 V 1.1 no 2.19 $\pm$ 0.07 - 0.61 $\pm$ 0.17 - (0.1) $\rm 1.20^{1.28}_{1.07}$
544 457 O3 If 1.3 $\lesssim$2 2.12 $\pm$ 0.06 0.56 $\pm$ 0.09 0.39 $\pm$ 0.14 1.32 $\pm$ 0.19 0.97 $\pm$ 0.3 $\rm 88.8^{98.6}_{77.5}$
562 462 O6.5 II 1.0 no 2.52 $\pm$ 0.48 - 0.40 $\pm$ 0.12 - 0.14 $\pm$ 0.1 $\rm 8.45^{9.1}_{6.4}$
568a 465 O6If + O5.5III(f) 1.4 $\sim $15 2.94 $\pm$ 1.25 - 0.91 $\pm$ 0.05 2.64 $\pm$ 0.07 0.52 $\pm$ 0.07 $\rm 61.3^{64.9}_{57.1}$
584 470 O9.5 V 0.8 no 1.85 $\pm$ 0.07 - 0.44 $\pm$ 0.18 - (0.3) $\rm 3.49^{3.98}_{2.89}$
597 473 O8.5 V 1.0 no 1.88 $\pm$ 0.09 - 0.30 $\pm$ 0.22 - 1.07 $\rm 3.00^{3.78}_{2.38}$
615 480 O7.5 V 1.0 no 2.73 $\pm$ 0.06 - 0.50 $\pm$ 0.17 - (0.1) $\rm 4.01^{4.43}_{3.42}$
625 483 O5 If 1.0 no 1.00 $\pm$ 0.08 - 0.55 $\pm$ 0.06 - 0.60 $\pm$ 0.21 $\rm 99.4^{107.3}_{86.4}$
626 485 O8 V 1.1 no 1.65 $\pm$ 0.04 - 0.88 $\pm$ 0.23 - (0.1) $\rm0.38^{0.53}_{0.21}$
686 507 O8.5 V 1.1 no 2.39 $\pm$ 0.08 - 0.35 $\pm$ 0.11 - (0.3) $\rm 4.16^{5.04}_{3.28}$
729a 516 O5.5 V(f) 1.1 $\lesssim$4 0.81 $\pm$ 0.05 0.51 $\pm$ 0.32 1.98 $\pm$ 0.12 - 0.38 $\pm$ 0.09 $\rm 11.7^{12.4}_{10.1}$
779 534 O7.5 V 1.2 no 1.16 $\pm$ 0.03 - 2.28 $\pm$ 0.55 - (0.1) $\rm 6.05^{7.74}_{4.91}$
817 556 B1 Ib 0.9 no 1.57 $\pm$ 0.08 - 0.18 $\pm$ 0.07 - (0.3) $\rm 1.20^{1.53}_{0.94}$
881 588 B0 V 0.9 no 1.84 $\pm$ 0.05 - 0.42 $\pm$ 0.20 - (0.3) $\rm0.81^{1.02}_{0.71}$
895 601 O9.5 III 1.0 no 1.98 $\pm$ 0.07 - 0.38 $\pm$ 0.21 - (0.3) $\rm0.72^{0.92}_{0.50}$
971 642 B1 III 0.9 no 1.73 $\pm$ 0.05 - 0.96 $\pm$ 0.45 - (0.3) $\rm0.14^{0.30}_{0.09}$
979 646 B1.5 V +? 1.5 no 2.90 $\pm$ 1.24 - 1.92 $\pm$ 1.01 - (0.3) $\rm0.22^{0.63}_{0.29}$
1001 696 O9.5 V 0.8 no 0.71 $\pm$ 0.02 - 0.54 $\pm$ 0.17 - (0.3) $\rm0.71^{0.83}_{0.42}$
Notes: (1) Abundance values in parenthesis indicate cases for which abundances were fixed in the spectral fit (see text), (2) Absorption-corrected fluxes are calculated in the 0.5-8.0 keV energy range (3) Three bright sources, #60, #488, and #568, suffer pile-up, and we extracted the spectra from annular rings (see Sect. 3.2) that exclude the central parts of the PSFs. a The 6.4+6.7 keV FeK$_\alpha $ complex is observed; b The Fe I 6.4 keV line is not detected, but the 6.7 keV seems to be present.


  \begin{figure}
\par\includegraphics[width=7.9cm,clip]{6101_f9A.ps}\hspace*{2mm}
\includegraphics[width=7.6cm,clip]{6101_f9B.ps}\end{figure} Figure 9: a) Distributions of absorbing columns, $N_{\rm H}$, with the corresponding visual absorption scale at the top. The light gray area refers to sources with net-counts greater than 20. The maximum of the distribution is at log $N_{\rm H}\sim 22.25$ cm-2 with a Full Width Half Maximum ( FWHM) of about 0.21 dex. The shaded area on the left indicates an excess of low-absorption sources with respect to the log-normal distribution that best describes the histogram (the continuous curve), possibly associated with foreground stars. The darker gray histogram refers to the subsample of sources without a 2MASS counterpart. b) Same as panel a) for plasma temperatures (kT) with, in addition, the distribution for "flaring'' sources (hatched histogram). The peak of the overall distribution is at $\sim $1.35 keV.

   
7 Results

We now discuss the implications of our data for the understanding of X-ray emission from young stars and for the study of the Cygnus OB2  stellar population. We split the discussion according to stellar mass and, correspondingly, expected X-ray emission mechanism. We first discuss known O and early B (<B2) stars, i.e. massive stars ( $M\gtrsim 12~M_\odot$) expected to generate X-rays in their powerful stellar winds. Next, using our mass estimates based on the J-band magnitude (Sect. 4.2), we define and study the properties of two subsamples of intermediate and low-mass X-ray detected stars. We base the distinction between the two groups on the model-predicted thickness of the convective layer, whose presence has been often found to be correlated with solar-like coronal activity. Stars with small or absent convective layers are instead believed to be unable to sustain coronal activity, although the matter is somewhat controversial. Adopting the 2 Myr isochrone from the SDF models, we observe that the thickness of the convective layer relative to the stellar radius, $R_{\rm c}$, decreases rapidly, from $\sim $5% to <1%, as the stellar mass increases from 3 to $3.3~M_\odot$. This rather sharp boundary however lies in the $2.8{-}5.3~M_\odot$ range in which our mass estimates are degenerate and therefore unconstrained (see Sect. 4.2). In order to resolve this ambiguity, we define the intermediate-mass range as $2.8{-}10~ M_\odot$, resulting in the selection of 57 stars[*]. Low mass stars are finally defined as stars with $M< 2.8~M_\odot$and are predicted to have substantial convective envelopes ( $R_{\rm c}>18\%$). 578 counterparts to X-ray sources fall in this category. Because of the sensitivity limit of 2MASS only 25(4) sources of these stars have masses below 0.5(0.4) $M_\odot$, which we may consider as our approximate detection limit. Our completeness limit is however probably higher, at ${\sim}1~M_\odot$, corresponding to J = 15.8, i.e. roughly the completeness limit of 2MASS. A histogram of the logarithm of stellar masses also peaks at ${\sim}1~M_\odot$, confirming the above estimate given that the mass function usually increases towards lower masses.

Figure 10 shows the $L_{\rm X}$-mass scatter plot for 683 X-ray sources in all three mass ranges. We distinguish with different symbols stars of low- and intermediate-mass, as determined from the J-band magnitude, and massive stars with known O- and early B- spectral types[*]. Note that stars in the $2.8{-}5.3~M_\odot$ and 0.2-0.4 $M_\odot$ ranges are plotted with horizontal error bars spanning the entire range, because the J-band vs. mass relation was found to be degenerate. In the plot we also indicate the position of 57 time-variable X-ray sources. They appear to be brighter than other sources of the same mass, probably because variability is more readily detected in sources with high photon statistics (see Sect. 5).


  \begin{figure}
\par\includegraphics[width=8.4cm,clip]{6101_f10.ps}\end{figure} Figure 10: Log $M/M_\odot $vs. log $L_{\rm x}$ for Cygnus OB2  sources with NIR counterparts (black circles and star-symbols) and for ONC sources observed by the COUP project (gray circles). Variable sources are indicated by empty squares, known O- and early B-type stars by star-symbols.

   
7.1 High-mass stars

The Cygnus OB2  region is one of the most massive SFR in the Galaxy, with ${\sim}2600 \pm400$ OB star members (Knödlseder 2000). The presence of a variety of evolved stars suggests that the star formation process was non-coeval (Massey & Thompson 1991; Hanson 2003). Out of a total of 20 O-type and 13 B-type stars lying in our Cygnus OB2  ACIS FOV, 7 and 3, respectively, are evolved (luminosity class: I-III). While we detect X-ray emission from all O stars regardless of evolutionary status, we have only detected 6 B stars, among which all the evolved ones. The detection fraction of evolved B stars is thus 100% while it is only 33% (3 our of 9[*]) for un-evolved ones.

The most widely accepted explanation for the X-ray emission of single O and early B-type stars invokes multiple small-scale shocks in the inner layers of their radiation-driven stellar winds (e.g. Feldmeier et al. 1997). Recent theoretical and observational results however support, for several OB stars, another physical plasma heating model involving strong magnetic fields: the magnetically channeled wind shock (MCWS) model (Gagné et al. 2005; Schulz et al. 2003; Owocki et al. 2005). Moreover, binary systems in which both components are O- and early B-type stars can produce intense thermal X-ray emission from wind-wind interactions as well as non-thermal X-ray emission from Inverse Compton scattering.

We modeled the spectra of O and B stars with one- or two-temperature thermal plasma emission models ( APEC), absorbed by neutral interstellar and circumstellar material ( WABS). Because the dense stellar winds of evolved OB stars are affected by the strong stellar UV/EUV ionizing radiation, the additional absorption of X-rays by a partially ionized stellar also wind should be considered. For evolved stars we then decided to model the combined effect of ISM plus wind material with a warm absorption model ( WABS  ABSORI, see e.g. Waldron et al. 1998). For sources #60, #544, and #729, we found that the inclusion of a warm absorber in the spectral model yields satisfactory fits of the soft part of the spectra ($\le$1.2 keV), reducing the $\chi^2_\nu$ from 2.1 to 1.4, from 2.7 to 1.3, and from 2.2 to 1.2, for the three sources respectively. The spectra of other evolved sources did not support the presence of the warm absorber, although in many cases the spectra have too low statistics to be conclusive. Metal abundances were fixed at $Z=0.3~ Z_\odot$ in fitting faint sources (<100 ph.) and left as a free parameter for brighter sources. When the best fit abundance was lower than $Z=0.1~Z_\odot$ we repeated the fit with Z fixed at this value.

Figure 12 shows three notable examples of spectral modeling and the best-fit parameter values for the 26 detected OB stars are presented in Table 4. We list: X-ray source numbers from Table 1 (Col. 1), identification numbers and spectral types from Hanson (2003) (2 and 3), reduced $\chi^2$ of the best fit (4), fraction of pile-up as reported by AE (as discussed Sect. 3.2, if f(Pile-up) > 2% we used an annular photon extraction region that excludes the peak of the PSF), the $N_{\rm H}$of the cold and hot absorption components from WABS and ABSORI, respectively (6 and 7), plasma temperatures of the two components (8 and 9), metal abundances (10). Column (11) finally gives the un-absorbed X-ray flux in the 0.5-8.0 keV energy band.

The median absorption of the 26 OB stars is log $N_{\rm H}=22.19$ cm-2, very similar but slightly lower than the median value of lower mass stars (22.23, see Sect. 7.3). It is tempting to attribute the lower absorption of O stars to the sweeping of the cloud material by strong winds. A two-sided KS test comparing the distribution of $N_{\rm H}$ for O and B stars with that of lower mass ones gives, however, a null result.

Most of the O- and early B- type stars are well fit by a soft thermal emission model with kT ranging between 0.5 and 0.7 keV ($\sim $5.8-8.1 MK), in agreement with the predictions of the wind shock model (Owocki et al. 1988; Lucy & White 1980). The spectra of some sources, however, require a second (hard) thermal component, which is not predicted by the wind shock model. The presence of this component seems to depend on the stellar evolutionary status: out of the 10 evolved O- and early B-type stars (spectral types B5 Ie, O4 III, O5 If, O3 If, O6 If +O5.5III(f)) 5 (50%) show evidence of a hard thermal emission with kT roughly between 1.3 and 3.0 keV (14-35 MK), while among the 16 class V stars, the hot component is only required in 3 cases (i.e. 23%). Several physical mechanisms have been proposed to explain the hard emission observed in some of our OB stars:

One of the most intriguing and so far unexplained observational results regarding the X-ray emission of O- and early B- type stars is the existence of a simple proportionality between the X-ray luminosity ($L_{\rm x}$), and the bolometric luminosity ( $L_{\rm bol}$) (Berghoefer et al. 1997). We explore this relationship for Cygnus OB2    O- and early B-type stars in Fig. 11. $L_{\rm x}$ values were calculated from our X-ray spectral analysis. Bolometric luminosities with relative uncertainties were estimated form the known spectral types and the calibrations given by Martins et al. (2005).

The proportionality between $L_{\rm x}$ and $L_{\rm bol}$ is retrieved, albeit with a large dispersion. However, when we distinguish between main sequence stars and evolved ones (i.e. giants and super-giants), we discover, for these latter, an apparently tight $L_{\rm x} - L_{\rm bol}$ relationship which is not a simple proportionality. For evolved stars, the $\chi^2_\nu$with respect to the $L_{\rm X}=10^{-7}~L_{\rm bol}$ relation is 2.61, while if we adopt the best-fit power law (with index $\Gamma \sim1.8$) the $\chi^2_\nu$ is reduced to $\sim $1.3. We test the statistical significance of including this additional degree of freedom in the $L_{\rm x}/L_{\rm
bol}$ relation. We used a F$_\chi$-test as described in Bevington et al. 1969. We found that F$_\chi$-test $\sim $0.6, which does not indicate a significant improvement of the quality of the fit (F$_\chi$ should be greater than 1.1), even when adopting a significance level as high as 0.1. However, this result is affected by the small number of evolved O and B stars in our sample. A similar analysis with more stars from other regions will be needed to confirm, or disprove, this tentative result.

A more detailed study of the physical origins of the X-ray emission from OB stars and on its dependence on stellar wind parameters will be presented in forthcoming paper.


  \begin{figure}
\par\includegraphics[width=8.2cm,clip]{6101_f11.ps}\end{figure} Figure 11: X-ray versus bolometric luminosity for main-sequence and evolved OB-type stars (open and filled symbols, respectively) in the Cygnus OB2    region. The dotted and continuous lines indicate log  $L_{\rm x}/L_{\rm bol}= -6,~ -7$, and -8. Evolved stars (i.e. giants and super-giants) seems to follow a power-law relation with index $\sim $1.8 (dashed line).

7.1.1 Specific sources

We now discuss the results of our analysis for three noteworthy OB stars in the ACIS FOV that have been the subject of previous investigations.

  \begin{figure}
\par\includegraphics[angle=270,width=5.5cm,clip]{6101_f12A.ps}\hs...
...e*{0.2mm}
\includegraphics[angle=270,width=5.5cm,clip]{6101_f12C.ps}\end{figure} Figure 12: ACIS-I spectra of three OB stars. The data were fitted with absorbed two temperatures optically thin thermal plasma models. Left: Cyg#12 (Src.Id. #60), showing a prominent FeK 6.7 keV emission line, indicative of hot thermal plasma. Center: Cyg#8 (Src.Id. #568), a colliding wind binary with a strong FeK$_\alpha $blend at 6.4+6.7 keV, arguing in favor of the thermal nature of the hard part of the spectrum and consistent with the expected emission from a colliding wind region (Raassen et al. 2003). Right: source #625 (O5.5 If), a typical super-giant fit with a 1-T model with a soft temperature model: $KT_1=0.55 \pm 0.06$ keV.

7.2 Intermediate-mass stars

Intermediate-mass stars ( $2.8<M/M_\odot<10$) are not expected to emit X-rays because, unlike O- and early B stars, they do not drive strong stellar winds nor possess outer convective zones that can sustain a dynamo mechanism such as the one that is ultimately held responsible for X-ray activity in low-mass stars. Several studies have however observed X-ray emission apparently associated with late B- and A-type stars. Although its origin has been often attributed to the coronal activity of unresolved late-type companions (e.g. Stelzer et al. 2006a,b), the matter is controversial. The Cygnus OB2  region has a large number of intermediate mass stars. It is therefore an ideal target to check this hypothesis. We classify 66 ACIS sources as intermediate-mass. The $L_{\rm X}$ vs. mass plot in Fig. 11 does not reveal any dramatic discontinuity at the boundaries with low and high mass stars. Intermediate mass stars, however, do not seem to follow the trend of increasing $L_{\rm X}$ with mass of lower mass stars, and seem to have $L_{\rm X}$ values that span the whole range spanned by these latter. This observation is consistent with the companion scenario.

As further supporting evidence for this conclusion we note that 8 of the X-ray sources associated with intermediate mass stars (about 12% of the sample) are variable, which is almost the same fraction found for low-mass stars (see Sect. 6.3). Moreover, their X-ray spectra are well represented by isothermal models with median kT=2.6 keV, also in agreement with values found for low mass stars (see Sect. 7.3).

At the distance of Cygnus OB2  an offset between IR and X-ray positions of 1'', i.e. roughly the on-axis Chandra  spatial resolution, corresponds to a projected separation of 1450 AU. X-ray source positions can however be determined with a precision of ${\sim}0.1''$ (145 AU) or even better, depending on the source statistics and off-angle. If the intermediate-mass primary of a binary system is X-ray dark we should thus be able to distinguish, at least statistically, whether the observed X-ray emission originates from the low mass secondary in the case of wide binary systems, defined as systems with separation >0.001 pc (206 AU) (cf. Close et al. 1990). Figure 13 shows an example of an X-ray source associated with an intermediate-mass counterpart, but with a significant spatial offset. A comparison of the distributions of X-ray-NIR offsets for X-ray sources associated with low and intermediate mass counterparts is however inconclusive. If the companion hypothesis is correct, most X-ray emitting low-mass companions are not in wide systems.


  \begin{figure}
\par\includegraphics[width=8.2cm,clip]{6101_f13.ps}
\par\end{figure} Figure 13: Example of a possible misidentification of an X-ray source with a intermediate-mass near-IR star. We show the X-ray and $K_{\rm s}$-band images of ACIS source #216. The X-ray and 2MASS positions differ by $\sim $2.5 arcsec ( ${\sim }1.8 \times 10^{-2}$ pc at the Cygnus OB2  distance). The X-ray source might be instead associated with a faint near-IR source undetected in 2MASS.

   
7.3 Low-mass stars

The origin of X-ray activity in low-mass PMS stars has so far eluded full understanding. Although many aspects of MS coronal activity also are not understood, the X-ray activity of MS stars correlates well with stellar rotational and convection properties, thus supporting the picture of a solar-like corona that is ultimately powered by a stellar dynamo. For Pre-Main Sequence (PMS) stars, however, no such a correlation has been found and the picture appears somewhat complicated by the presence of accretion disks, which seem to play an important role in the X-ray emission. On one hand plasma heated by shocks due to the accretion process is likely to be a source of soft X-rays (cf. Favata et al. 2005; Stelzer & Schmitt 2004; Flaccomio et al. 2006; Kastner et al. 2002). On the other hand the presence of accretion disks seems to lower the overall activity level, although probably making the X-ray emission harder and more time variable (Flaccomio et al. 2006; Preibisch et al. 2005; Flaccomio et al. 2003).

We have defined the low mass range $M< 2.8~M_\odot$, based on the presence of a significant convection envelope. The X-ray spectra and luminosities of low mass stars in Cygnus OB2  are typical of T-Tauri stars in other regions: our spectral analysis (Sect. 6) yields a median kT=2.38 keV and log  $N_{\rm H}=22.23$. Figure 10 indicates that, although the spread of $L_{\rm x}$ at any given mass is of the order of 1 dex, a trend of increasing $L_{\rm x}$ with mass is observed. The same figure shows for comparison the nearly complete sample of Orion Nebular Cluster (ONC) stars as observed by the Chandra Orion Ultra-deep Project (COUP) (Getman et al. 2005b). The sensitivity limits of the two observations are quite different because of the larger distance of Cygnus OB2  ($\sim $1450 pc vs. 470 pc for the ONC), and the longer exposure time of the COUP observation ($\sim $838 vs. $\sim $97 ks for our data). However, as already discussed, the most severe limit to the completeness of our sample of likely members with near-IR counterparts is likely to be the sensitivity limit of the 2MASS data. The Cygnus OB2  stars in Fig. 10 have a well defined limit of mass, at ${\sim}0.4{-}0.5~M_\odot$, rather than X-ray luminosity.

Figure 10 shows that the luminosities of low mass stars in Cygnus OB2  and in the ONC are compatible. The numbers of stars in the $1.0{-}2.8~M_\odot$ mass range in the Cygnus OB2  and ONC regions differ considerably. In Cygnus OB2  we count 334 such stars, about 10 times as many as the in a sample of 375 COUP-detected lightly absorbed ($A_{\rm v}$ < 2) ONC stars with mass estimates, in which we find 34 stars in the same range (Getman et al. 2005b). Assuming that the IMFs in the two regions are the same and that the considered sample of lightly absorbed ONC stars is complete, we can estimate the total number of stars in our Cygnus OB2  ACIS FOV as 375/ $34\times334\sim3700$. Considering that our FOV contains only one fourth of the 106 OB stars known in Cygnus OB2, we can then scale this number by the number of OB stars to get the total expected Cygnus OB2  population: $\sim $15 000 stars. The total stellar mass of the cluster can be then estimated by multiplying this number by the average stellar mass in the lightly absorbed COUP sample (0.84 $M_\odot$): $M_{\rm
cl}\sim 1.2\times 10^4~M_\odot$, somewhat lower than the estimate of Knödlseder (2000), who derived $4{-}10 \times 10^4~M_\odot$.

Deeper and more extended X-ray and near-IR surveys of Cygnus OB2  will be invaluable for the study of young stars of all masses with unprecedented statistic. Such observations has been recently obtained at the TNG observatory, and we will present such results in a forthcoming paper.

8 Summary and conclusions

We have reported the results of a deep Chandra X-ray observation pointed toward the $\sim $2 Myr old star forming region Cygnus OB2. Source detection was performed using PWDdetect, a wavelet-based algorithm, supplemented by visual inspection, identifying 1003 X-ray sources in the $17' \times 17'$ ACIS-I field of view. Data extraction was performed using the semi-automated IDL-based ACIS E XTRACT package, which is well suited to the analysis of observations of crowded fields such as ours.

The X-ray source list was cross-identified with optical and near-IR (2MASS) catalogs: 26 X-ray sources were identified with optically characterized OB members of Cygnus OB2  (out of the 33 lying in the FOV) and 775 with 2MASS sources. Among these latter sources almost all are believed to be Cygnus OB2  members. About $\sim $80 X-ray sources without an optical/NIR counterpart are estimated to be of extragalactic nature (AGNs) while the remaining X-ray sources with no counterpart are likely associated with members that are fainter than the 2MASS completeness limit.

In order to characterize the previously unidentified likely cluster members with NIR counterparts, we placed them on NIR color-magnitude ($K_{\rm s}$ vs. $H-K_{\rm s}$) and color-color ( $H-K_{\rm s}$ vs. J-H) diagrams. A first estimate of interstellar extinction was obtained adopting a 2 Myr isochrone for the low- and intermediate-mass stars and assuming that O- and early B-type stars lie on the MS. We find a median visual absorption for OB stars of $A_{\rm v}$ $\sim $ 5.6 mag, while low mass likely members seem to be slightly more absorbed, $A_{\rm v}$ $\sim $ 7.0 mag. We also use the 2 Myr isochrone and the J magnitude to estimate masses of likely members assuming that they share the same distance and absorption. Our sample of X-ray selected members with near-IR counterparts reaches down to $M=0.4{-}0.5~M_\odot$, and is likely complete down to $\sim $$M_\odot$. From the $H-K_{\rm s}$ vs. J-H diagram we estimate the fraction of low-mass stars with NIR excesses (23/519), finding it to be quite low with respect to the 1 Myr old ONC region indicating that either (i) the disk fraction decreases steeply with stellar age, or (ii) the intense photo-evaporating UV-field due to the large population of O stars in the region has reduced the disk lifetime.

At least 85 or 134 X-ray sources, i.e. $\sim $8.5% and 13% of the total, were found to be variable within our observation with a confidence level of 99.9% or 99%, respectively. The fraction of variable sources increases with increasing source counts, likely as a result of a statistical bias. The light-curves of 97 sources indicate an impulsive, flare-like, behavior while the rest show more gradual variations of the X-ray emission. Only two of the 24 detected O- and early B-type stars are detected as variable during our 97 ks observation, in spite of the high statistic of their light-curves. These exceptions are the B5 Ie star Cygnus#12 (our source #60), showing a rather linear decay of the count rate during the observation, and a B1.5 V+? star (#979), which also shows a slow variability, possibly related to rotational modulation. In this latter case the detected emission may originate from the primary B1.5 component and/or from its presumably lower mass companion indicated by the spectral type published by Hanson (2003).

We modeled the ACIS X-ray spectra of sources with more than 20 photons assuming absorbed thermal emission models. Median log($N_{\rm H}$) and kTvalues of the sources are 22.25 (cm-2) and 2.36 keV, respectively. Variable sources, $P_{\rm KS}<0.01$ have harder spectra (median kT: 3.3 keV) than non-variable ones (median kT:2.1 keV) and flaring sources are even harder (median kT:3.8). Sources associated with O- and early B-type stars are instead quite soft (median kT: 0.75 keV). Absorption corrected X-ray luminosities of OB stars were calculated from the best fit spectral models. For the other, typically fainter, sources, we adopted a single count-rate to flux conversion factor computed from the results of individual spectral fits. Low mass stars have $L_{\rm x}$ ranging between 1030 and 1031 erg s-1 (median $2.5\times10^{30}$). Variable low mass stars are on average 0.4 dex brighter, probably because of a selection effect. These X-ray luminosities are consistent with those of similar mass stars in the slightly younger (1 Myr) ONC region. O and B-type stars are the most luminous, with $L_{\rm x} = 2.5 \times10^{30}{-}6.3 \times10^{33}$ erg s-1. Their X-ray and bolometric luminosities are in rough agreement with the relation $L_{\rm
x}/L_{\rm bol}=10^{-7}$, albeit with an order of magnitude dispersion. The X-ray luminosities of the 10 evolved OB stars in our sample however, seem to obey a better defined and steeper power-law relation with $L_{\rm bol}$: $L_{\rm x} \propto L_{\rm bol}^{1.8}$). Further studies of a larger number of evolved OB-type stars are needed to confirm or disprove this dependence.

Acknowledgements

This publication makes use of data products from the Two Micron All Sky Survey, which is a joint project of the University of Massachusetts and the Infrared Processing and Analysis Center/California Institute of Technology, funded by the National Aeronautics and Space Administration and the National Science Foundation. J.F.A.C acknowledges support by the Marie Curie Fellowship Contract No. MTKD-CT-2004-002769 of the project "The Influence of Stellar High Energy Radiation on Planetary Atmospheres", and the host institution INAF - Osservatorio Astronomico di Palermo (OAPA). E. F., G. M., F. D. and S. S. acknowledge financial support from the Ministero dell'Universita' e della Ricerca research grants, and ASI/INAF Contract I/023/05/0.

References

 

  
9 Online Material


   
Table 1: Cygnus OB2  source catalog.
$N_{\rm x}$ NAME RA Dec Error $\theta$ Sig. Area PSF Cts Exp. Count Rates ( $\times 10^{-3}$ ctn s-1) $\overline E_{\rm x}$ Var.
# CXOCYG J+ [h:m:s] [d:m:s] ('') (') ($\sigma $) (px.) (%) (ph.) (ks) Tot. Soft Med. Hard (keV) log( $P_{\rm ks}$)
1 203225.09+411019.6 20:32:25.09 41:10:19.60 0.62 10.03 6.55 1170 0.90 67 87.8255 0.855 0.135 0.233 0.487 3.23 -4.00 $\dag $
2 203225.55+410847.3 20:32:25.55 41:08:47.36 0.70 10.76 6.66 1429 0.89 72 92.9360 0.871 0.620 0.059 0.192 1.35 -0.65
3 203225.97+411054.7 20:32:25.97 41:10:54.77 0.75 9.62 4.28 973 0.90 35 90.9414 0.434 0.099 0.153 0.182 2.37 -0.32
4 203227.51+411358.3 20:32:27.52 41:13:58.37 0.88 8.47 2.30 630 0.89 14 92.5496 0.173 0.004 0.060 0.109 3.18 -0.17
5 203227.62+410831.4 20:32:27.63 41:08:31.46 0.76 10.61 5.92 1420 0.91 55 96.8402 0.637 0.160 0.198 0.278 2.36 -0.00
6 203227.70+411317.0 20:32:27.71 41:13:17.07 0.26 8.55 13.38 618 0.89 216 96.5481 2.521 0.529 0.862 1.130 2.61 -4.00 $\dag $
7 203228.88+410807.5 20:32:28.89 41:08: 7.59 0.80 10.67 5.09 1623 0.90 49 96.6863 0.571 0.136 0.167 0.268 2.75 -2.37 $\dag $
8 203229.12+411400.7 20:32:29.12 41:14: 0.78 0.55 8.16 4.09 545 0.89 33 92.8669 0.400 0.130 0.078 0.192 2.62 -0.59
9 203229.26+410850.1 20:32:29.26 41:08:50.17 0.59 10.17 6.70 834 0.82 64 92.6690 0.842 0.364 0.202 0.276 2.02 -0.44
10 203229.84+411454.2 20:32:29.85 41:14:54.27 0.50 7.97 5.56 525 0.90 50 93.3914 0.605 0.249 0.185 0.171 2.24 -0.67
11 203229.91+411056.0 20:32:29.92 41:10:56.06 0.72 8.94 2.77 751 0.90 19 92.9014 0.227 0.080 0.058 0.089 2.30 -0.97
12 203230.63+410829.1 20:32:30.64 41:08:29.11 0.58 10.19 8.52 1205 0.90 99 94.5473 1.173 0.320 0.478 0.375 2.14 -0.08
13 203230.63+410854.8 20:32:30.63 41:08:54.82 0.66 9.92 5.21 784 0.83 44 96.4507 0.552 0.067 0.180 0.305 2.93 -1.14 $\dag $
14 203230.88+411029.5 20:32:30.89 41:10:29.53 0.46 8.99 7.08 761 0.90 75 96.5167 0.867 0.063 0.176 0.628 3.42 -0.07
15 203231.39+410955.9 20:32:31.40 41:09:55.98 0.57 9.21 6.16 821 0.90 60 94.7546 0.714 0.259 0.168 0.287 2.27 -0.01
16 203231.42+411335.0 20:32:31.43 41:13:35.01 0.55 7.80 3.85 480 0.90 30 93.4071 0.357 0.039 0.098 0.220 3.01 -0.33
17 203231.53+411407.9 20:32:31.53 41:14: 7.98 0.05 7.70 55.14 431 0.89 3173 97.6726 36.534 14.545 13.742 8.247 1.85 -2.83
18 203231.58+411712.5 20:32:31.58 41:17:12.52 0.73 7.95 2.01 517 0.90 12 92.8637 0.145 0.007 0.049 0.089 3.10 -0.04
19 203232.32+411507.3 20:32:32.32 41:15: 7.30 0.56 7.50 3.55 418 0.89 25 94.0133 0.306 0.031 0.097 0.177 3.23 -0.02
20 203232.44+411312.3 20:32:32.45 41:13:12.36 0.43 7.69 5.60 413 0.89 49 93.2124 0.592 0.112 0.202 0.278 2.64 -2.69 $\dag $
21 203233.28+411058.8 20:32:33.29 41:10:58.88 0.75 8.36 2.82 575 0.90 18 88.3312 0.230 0.162 0.034 0.034 1.15 -0.44
22 203233.47+411218.0 20:32:33.48 41:12:18.04 0.49 7.77 4.49 459 0.90 34 91.7675 0.415 0.177 0.127 0.111 1.82 -0.04
23 203233.53+411405.7 20:32:33.54 41:14: 5.74 0.38 7.33 5.47 364 0.90 50 95.7566 0.593 0.199 0.201 0.193 1.92 -0.49
24 203234.33+411506.3 20:32:34.34 41:15: 6.33 0.54 7.12 3.71 350 0.90 26 94.3211 0.311 0.074 0.056 0.181 3.52 -0.44
25 203234.45+411154.7 20:32:34.45 41:11:54.74 0.58 7.75 3.96 446 0.90 27 94.8080 0.326 0.061 0.203 0.062 2.06 -0.26
26 203235.17+411143.4 20:32:35.18 41:11:43.48 0.47 7.70 4.97 430 0.90 39 91.6010 0.475 0.196 0.159 0.120 1.96 -0.03
27 203235.65+411509.5 20:32:35.65 41:15: 9.50 0.33 6.88 7.09 312 0.90 70 96.3691 0.815 0.228 0.368 0.219 2.10 -1.17
28 203235.86+411248.4 20:32:35.87 41:12:48.42 0.37 7.18 5.22 340 0.90 43 93.8249 0.519 0.083 0.289 0.147 2.04 -2.14 $\dag $
29 203235.96+412135.6 20:32:35.97 41:21:35.64 0.78 9.47 4.51 669 0.83 33 95.8351 0.413 0.190 0.064 0.159 1.85 -0.11
30 203236.32+411900.7 20:32:36.32 41:19: 0.76 0.47 7.84 4.96 489 0.90 41 94.6415 0.484 0.209 0.129 0.146 1.76 -0.44
31 203236.38+411831.0 20:32:36.39 41:18:31.08 0.62 7.59 3.81 403 0.89 26 90.0839 0.333 0.242 0.060 0.032 1.41 -1.46
32 203236.50+411810.3 20:32:36.50 41:18:10.36 0.67 7.42 3.78 376 0.89 26 91.6356 0.320 0.115 0.112 0.093 1.90 -1.55
33 203236.62+412214.5 20:32:36.63 41:22:14.52 0.26 9.85 14.02 689 0.81 232 97.5187 2.949 1.112 0.835 1.002 1.93 -4.00 $\dag $
34 203236.86+411944.6 20:32:36.86 41:19:44.62 0.40 8.16 7.22 544 0.90 74 97.0381 0.859 0.295 0.288 0.277 1.86 -0.83
35 203236.84+412146.1 20:32:36.85 41:21:46.11 0.56 9.48 5.65 660 0.83 46 95.1661 0.592 0.278 0.162 0.153 1.82 -1.24
36 203237.55+411150.8 20:32:37.55 41:11:50.86 0.38 7.25 5.53 345 0.90 45 97.5878 0.517 0.345 0.142 0.030 1.31 -0.29
37 203237.53+411712.4 20:32:37.54 41:17:12.41 0.33 6.88 6.04 305 0.90 55 83.4533 0.736 0.058 0.359 0.319 2.68 -4.00 $\dag $
38 203237.71+411405.3 20:32:37.72 41:14: 5.36 0.44 6.55 3.92 242 0.90 29 97.2737 0.336 0.093 0.156 0.087 2.18 -0.27
39 203237.83+412208.7 20:32:37.84 41:22: 8.76 0.44 9.62 8.34 650 0.81 91 96.8873 1.159 0.335 0.401 0.422 2.20 -1.56 $\dag $
40 203237.87+412119.0 20:32:37.87 41:21:19.02 0.41 9.02 8.98 821 0.91 109 95.6623 1.261 0.622 0.405 0.233 1.70 -0.01
41 203237.94+411502.7 20:32:37.95 41:15: 2.70 0.41 6.44 4.09 243 0.90 31 96.6172 0.368 0.119 0.147 0.103 1.89 -0.43
42 203238.10+410833.1 20:32:38.10 41:08:33.10 0.75 9.11 3.00 797 0.90 23 93.7243 0.276 0.073 0.074 0.130 2.64 -0.99
43 203238.10+411244.4 20:32:38.11 41:12:44.50 0.27 6.80 6.07 263 0.89 53 94.2018 0.635 0.078 0.243 0.315 2.74 -4.00 $\dag $
44 203238.07+412313.8 20:32:38.07 41:23:13.89 0.72 10.43 7.14 1564 0.91 83 96.7900 0.952 0.415 0.276 0.261 1.89 -0.17
45 203238.26+411141.7 20:32:38.26 41:11:41.75 0.62 7.20 3.11 337 0.90 18 84.2417 0.247 0.072 0.048 0.127 2.70 -0.01
46 203238.43+411201.1 20:32:38.44 41:12: 1.16 0.57 7.02 3.30 309 0.90 20 91.6764 0.248 0.041 0.126 0.081 2.37 -0.67
47 203238.56+411422.0 20:32:38.56 41:14:22.10 0.35 6.36 4.79 223 0.90 42 92.4931 0.508 0.179 0.185 0.144 1.98 -0.69
48 203239.41+411906.3 20:32:39.42 41:19: 6.38 0.40 7.40 5.44 362 0.89 45 92.3423 0.556 0.225 0.146 0.185 1.98 -0.00
49 203239.52+411112.5 20:32:39.52 41:11:12.56 0.33 7.23 6.11 338 0.90 53 88.7678 0.668 0.098 0.307 0.263 2.28 -0.01
50 203239.82+412358.2 20:32:39.82 41:23:58.23 0.71 10.83 6.51 1799 0.91 78 94.3745 0.916 0.512 0.204 0.200 1.64 -0.45
51 203239.90+411348.1 20:32:39.91 41:13:48.18 0.36 6.19 4.12 202 0.90 32 92.5936 0.385 0.093 0.168 0.125 1.97 -2.91 $\dag $
52 203240.12+411034.7 20:32:40.12 41:10:34.75 0.21 7.49 11.29 386 0.90 156 93.9379 1.853 0.286 0.754 0.814 2.69 -4.00 $\dag $
53 203240.07+412201.7 20:32:40.08 41:22: 1.71 0.62 9.26 5.09 882 0.90 43 92.1538 0.527 0.277 0.172 0.078 1.69 -0.79
54 203240.22+412244.7 20:32:40.22 41:22:44.79 0.68 9.79 7.02 1053 0.89 73 94.9776 0.860 0.231 0.225 0.404 2.68 -1.06 $\dag $
55 203240.26+411740.9 20:32:40.27 41:17:40.92 0.39 6.57 4.53 250 0.90 33 88.9626 0.417 0.248 0.098 0.071 1.58 -0.03
56 203240.59+411454.8 20:32:40.60 41:14:54.82 0.21 5.95 6.62 123 0.83 62 97.4904 0.768 0.131 0.354 0.283 2.42 -0.00
57 203240.65+411111.6 20:32:40.66 41:11:11.62 0.40 7.06 4.32 306 0.90 30 94.3306 0.359 0.039 0.159 0.161 2.71 -2.31
58 203240.72+412106.1 20:32:40.72 41:21: 6.19 0.51 8.49 5.50 612 0.90 49 93.2061 0.585 0.195 0.164 0.226 2.08 -0.03
59 203240.81+411720.2 20:32:40.82 41:17:20.23 0.56 6.34 2.39 221 0.90 12 91.8900 0.151 0.100 0.024 0.027 1.50 -0.54
60 203240.94+411428.8 20:32:40.95 41:14:28.90 0.02 5.90 121.01 180 0.90 14913 97.7542 169.233 64.017 72.828 32.388 1.89 -4.00
61 203240.96+411551.0 20:32:40.96 41:15:51.09 0.33 5.94 5.18 170 0.89 40 94.3997 0.480 0.108 0.162 0.210 2.65 -0.50
62 203240.97+411449.6 20:32:40.98 41:14:49.67 0.35 5.88 3.40 124 0.84 23 95.2540 0.296 0.127 0.091 0.079 1.88 -0.03
63 203241.06+411955.2 20:32:41.07 41:19:55.23 0.53 7.64 3.41 431 0.90 24 93.3223 0.286 0.131 0.038 0.118 2.00 -0.12
64 203241.33+411849.9 20:32:41.34 41:18:49.97 0.28 6.95 7.59 282 0.89 77 96.2026 0.908 0.210 0.278 0.420 2.49 -3.85
65 203241.55+411154.7 20:32:41.56 41:11:54.70 0.49 6.55 2.45 223 0.89 13 95.1158 0.158 0.026 0.079 0.053 2.30 -0.29
66 203241.61+411549.0 20:32:41.62 41:15:49.02 0.61 5.81 2.38 181 0.91 12 83.6449 0.168 0.062 0.048 0.058 1.72 -0.00
67 203241.66+411406.5 20:32:41.66 41:14: 6.54 0.32 5.82 4.77 166 0.90 40 95.0216 0.478 0.149 0.144 0.184 2.52 -0.25
68 203241.87+411555.9 20:32:41.87 41:15:55.98 0.32 5.78 4.06 178 0.91 27 95.9199 0.315 0.090 0.152 0.073 2.02 -0.10
69 203242.15+411712.2 20:32:42.16 41:17:12.24 0.37 6.06 3.69 193 0.91 22 89.7981 0.280 0.062 0.100 0.118 2.64 -0.01
70 203242.18+411641.4 20:32:42.19 41:16:41.42 0.38 5.89 3.02 184 0.91 17 75.4940 0.255 0.105 0.061 0.089 1.86 -0.00
71 203242.46+412236.6 20:32:42.47 41:22:36.66 0.55 9.43 6.85 866 0.89 68 95.5210 0.801 0.339 0.319 0.143 1.82 -2.00
72 203242.88+412016.5 20:32:42.88 41:20:16.58 0.29 7.62 9.01 416 0.90 107 94.4154 1.266 0.641 0.355 0.270 1.65 -0.19
73 203242.86+412343.1 20:32:42.87 41:23:43.16 0.50 10.31 10.07 1396 0.90 138 97.5501 1.573 0.418 0.699 0.456 2.08 -0.14
74 203242.91+411914.4 20:32:42.91 41:19:14.42 0.29 6.94 8.23 274 0.89 89 97.7071 1.026 0.416 0.351 0.259 1.86 -4.00 $\dag $
75 203243.03+411741.1 20:32:43.04 41:17:41.10 0.51 6.10 3.27 197 0.91 19 94.7609 0.224 0.073 0.061 0.091 2.04 -0.02
76 203243.01+412309.3 20:32:43.02 41:23: 9.34 0.81 9.82 4.55 1094 0.91 38 91.2869 0.465 0.159 0.104 0.202 2.01 -0.33
77 203243.09+411359.3 20:32:43.10 41:13:59.34 0.26 5.57 4.77 142 0.90 38 97.5564 0.435 0.225 0.097 0.113 1.64 -0.79
78 203243.10+411750.9 20:32:43.10 41:17:50.96 0.45 6.16 2.88 201 0.91 16 79.7155 0.222 0.022 0.044 0.157 3.34 -0.23
79 203243.34+411514.1 20:32:43.34 41:15:14.19 0.37 5.43 2.76 143 0.90 16 91.6136 0.194 0.051 0.052 0.091 2.53 -0.26
80 203243.34+411657.1 20:32:43.34 41:16:57.12 0.68 5.76 2.67 167 0.90 13 84.9578 0.182 0.052 0.069 0.061 2.56 -1.01
81 203243.40+411102.9 20:32:43.40 41:11: 2.90 0.32 6.71 5.63 245 0.89 47 96.6737 0.545 0.167 0.189 0.189 2.20 -4.00 $\dag $
82 203243.95+411709.9 20:32:43.95 41:17: 9.93 0.41 5.73 4.16 163 0.90 27 96.1052 0.314 0.139 0.062 0.113 1.89 -0.10
83 203244.22+411615.7 20:32:44.22 41:16:15.75 0.37 5.41 3.12 141 0.90 18 63.5644 0.320 0.050 0.175 0.094 2.11 -0.96
84 203244.31+411743.8 20:32:44.31 41:17:43.81 0.41 5.91 3.69 176 0.90 22 93.1181 0.271 0.053 0.182 0.037 2.04 -0.26
85 203244.35+411445.3 20:32:44.36 41:14:45.35 0.26 5.25 4.21 109 0.89 29 90.8158 0.365 0.116 0.175 0.075 1.82 -0.17
86 203244.42+411122.9 20:32:44.43 41:11:22.95 0.50 6.36 2.55 204 0.89 13 89.0097 0.175 0.021 0.097 0.058 2.50 -0.02
87 203244.71+410701.4 20:32:44.71 41:07: 1.42 0.71 9.52 5.51 1290 0.90 52 97.3019 0.602 0.112 0.182 0.308 3.00 -0.10
88 203244.74+411305.4 20:32:44.74 41:13: 5.48 0.26 5.51 5.02 135 0.90 37 95.7063 0.434 0.076 0.152 0.205 2.77 -0.32
89 203244.81+411227.4 20:32:44.82 41:12:27.47 0.45 5.75 2.87 152 0.90 15 80.0861 0.217 0.075 0.074 0.069 2.23 -0.00
90 203244.82+411549.0 20:32:44.82 41:15:49.07 0.39 5.21 3.33 125 0.91 19 97.4747 0.226 0.041 0.105 0.081 2.12 -1.19
91 203244.85+411419.1 20:32:44.85 41:14:19.17 0.35 5.19 2.27 104 0.89 12 77.7838 0.179 0.008 0.046 0.125 4.30 -0.24
92 203244.83+411848.1 20:32:44.83 41:18:48.13 0.48 6.39 3.42 218 0.90 21 96.4099 0.252 0.115 0.084 0.053 1.89 -0.12
93 203244.90+411519.8 20:32:44.90 41:15:19.83 0.25 5.15 5.73 105 0.89 45 93.4825 0.544 0.160 0.210 0.174 2.08 -1.52
94 203244.86+412350.5 20:32:44.87 41:23:50.60 0.63 10.22 7.21 1383 0.90 80 96.3377 0.929 0.440 0.310 0.178 1.77 -0.03
95 203245.08+411247.3 20:32:45.08 41:12:47.34 0.42 5.57 2.21 138 0.90 10 91.3906 0.127 0.049 0.041 0.037 2.14 -0.13
96 203245.08+411725.6 20:32:45.08 41:17:25.62 0.38 5.64 2.65 82 0.80 13 94.9650 0.173 0.043 0.072 0.058 2.20 -0.56
97 203245.24+411221.2 20:32:45.25 41:12:21.21 0.37 5.73 3.63 150 0.90 22 90.5676 0.275 0.128 0.054 0.093 1.74 -0.06
98 203245.30+411721.1 20:32:45.31 41:17:21.12 0.41 5.57 2.54 79 0.80 12 86.4278 0.177 0.063 0.065 0.049 2.23 -0.72
99 203245.49+411546.9 20:32:45.49 41:15:46.94 0.29 5.08 3.09 101 0.89 17 94.5724 0.208 0.111 0.048 0.049 1.61 -0.41
100 203245.59+411659.2 20:32:45.59 41:16:59.20 0.32 5.38 4.25 129 0.90 28 95.0750 0.328 0.094 0.142 0.092 2.14 -1.19
101 203245.64+411647.1 20:32:45.64 41:16:47.13 0.41 5.30 2.05 125 0.90 9 75.4940 0.142 0.026 0.074 0.043 1.96 -1.39
102 203245.76+411349.7 20:32:45.76 41:13:49.73 0.22 5.11 4.99 109 0.90 37 95.4739 0.437 0.126 0.135 0.175 2.61 -0.18
103 203245.81+411502.9 20:32:45.81 41:15: 2.95 0.33 4.96 3.20 93 0.89 18 93.3129 0.223 0.087 0.050 0.086 1.92 -0.12
104 203245.79+412108.2 20:32:45.80 41:21: 8.21 0.33 7.88 7.49 429 0.89 77 97.0538 0.892 0.389 0.233 0.270 1.92 -1.19
105 203245.91+411238.7 20:32:45.92 41:12:38.70 0.29 5.48 3.94 131 0.90 24 90.3635 0.304 0.125 0.178 0.001 1.86 -0.16
106 203246.14+411040.1 20:32:46.14 41:10:40.14 0.34 6.55 6.12 224 0.90 53 94.5724 0.627 0.100 0.271 0.257 2.59 -0.12
107 203246.27+410713.3 20:32:46.27 41:07:13.30 0.77 9.19 4.02 1086 0.89 33 94.6949 0.400 0.090 0.194 0.116 2.17 -1.40
108 203246.31+411107.8 20:32:46.32 41:11: 7.83 0.49 6.23 3.29 189 0.90 19 90.6210 0.243 0.107 0.072 0.064 1.82 -0.02
109 203246.36+411652.9 20:32:46.37 41:16:52.97 0.42 5.21 2.97 102 0.89 15 94.8488 0.188 0.133 0.039 0.015 1.44 -0.12
110 203246.41+411301.8 20:32:46.41 41:13: 1.82 0.47 5.24 1.64 116 0.90 6 86.0069 0.087 0.015 0.071 0.001 1.83 -0.42
111 203246.66+411808.5 20:32:46.66 41:18: 8.52 0.45 5.73 3.26 151 0.90 19 96.4916 0.221 0.088 0.057 0.075 2.10 -0.29
112 203246.70+411316.3 20:32:46.71 41:13:16.32 0.49 5.10 1.96 107 0.90 8 75.3306 0.132 0.055 0.064 0.013 1.76 -0.03
113 203246.86+411742.8 20:32:46.86 41:17:42.86 0.41 5.48 1.68 134 0.90 7 79.9385 0.103 -0.004 0.071 0.037 2.34 -0.04
114 203246.91+412118.7 20:32:46.91 41:21:18.75 0.55 7.89 5.26 479 0.90 43 96.9219 0.499 0.151 0.124 0.224 2.36 -0.18
115 203247.40+411251.1 20:32:47.41 41:12:51.16 0.34 5.14 3.39 107 0.91 19 91.3026 0.236 0.063 0.067 0.106 2.07 -0.06
116 203247.47+411211.7 20:32:47.48 41:12:11.70 0.42 5.44 2.84 126 0.91 15 82.3916 0.208 0.079 0.068 0.061 1.95 -1.57
117 203247.81+411334.8 20:32:47.81 41:13:34.90 0.42 4.81 2.50 89 0.90 12 89.3709 0.158 0.022 0.013 0.123 3.50 -1.50
118 203247.87+411632.3 20:32:47.88 41:16:32.38 0.47 4.82 2.28 84 0.89 10 84.8102 0.142 0.028 0.058 0.056 2.43 -0.17
119 203247.98+411653.9 20:32:47.99 41:16:53.97 0.35 4.93 2.12 87 0.89 9 71.2473 0.152 0.046 0.101 0.006 1.74 -0.00
120 203248.18+411352.1 20:32:48.19 41:13:52.10 0.42 4.66 1.91 71 0.89 8 82.3916 0.116 0.040 0.019 0.057 2.90 -0.23
121 203248.25+411229.1 20:32:48.25 41:12:29.20 0.26 5.17 3.97 95 0.89 24 88.9060 0.314 0.066 0.108 0.140 2.62 -0.00
122 203248.43+411439.4 20:32:48.44 41:14:39.48 0.15 4.49 7.07 77 0.90 66 93.4888 0.783 0.175 0.297 0.311 2.27 -0.76
123 203248.47+411608.2 20:32:48.47 41:16: 8.22 0.19 4.60 5.40 85 0.91 41 95.2509 0.481 0.151 0.143 0.188 2.30 -0.03
124 203248.53+412336.2 20:32:48.53 41:23:36.21 0.56 9.68 6.53 823 0.83 63 93.3820 0.815 0.330 0.304 0.181 1.89 -1.46 $\dag $
125 203248.63+410811.6 20:32:48.63 41:08:11.61 0.33 8.14 9.62 546 0.90 121 97.1512 1.385 0.324 0.487 0.574 2.23 -1.33
126 203248.87+411519.8 20:32:48.87 41:15:19.87 0.31 4.40 3.15 75 0.90 16 83.6354 0.222 0.127 0.062 0.034 1.64 -0.01
127 203248.91+410930.4 20:32:48.91 41:09:30.49 0.70 7.04 2.83 317 0.90 16 89.1228 0.208 0.077 0.073 0.058 1.96 -0.05
128 203249.02+410746.8 20:32:49.03 41:07:46.88 0.44 8.45 6.41 582 0.89 63 96.3879 0.734 0.127 0.328 0.279 2.26 -3.61 $\dag $
129 203249.39+411230.6 20:32:49.39 41:12:30.64 0.29 4.97 2.45 97 0.91 11 91.2398 0.143 0.074 0.054 0.015 1.67 -0.00
130 203249.38+411606.8 20:32:49.38 41:16: 6.85 0.32 4.43 2.91 76 0.90 15 93.7903 0.179 0.050 0.041 0.087 2.69 -0.01
131 203249.34+412224.5 20:32:49.34 41:22:24.54 0.64 8.55 4.35 514 0.86 31 96.1241 0.386 0.133 0.163 0.090 1.98 -0.06
132 203249.51+411532.8 20:32:49.52 41:15:32.84 0.12 4.30 8.31 70 0.90 87 94.2112 1.027 0.213 0.391 0.422 2.23 -0.14
133 203249.85+412342.2 20:32:49.86 41:23:42.22 0.59 9.65 7.19 871 0.84 72 91.7267 0.930 0.624 0.194 0.113 1.45 -0.34
134 203249.92+411511.1 20:32:49.93 41:15:11.19 0.38 4.19 2.00 57 0.89 8 70.0914 0.132 0.043 0.077 0.012 1.85 -0.20
135 203250.08+411626.7 20:32:50.08 41:16:26.79 0.33 4.40 2.72 57 0.87 13 80.1301 0.193 0.065 0.051 0.077 2.18 -1.48
136 203250.11+411458.1 20:32:50.11 41:14:58.16 0.35 4.16 2.44 56 0.90 11 89.8515 0.142 0.017 0.045 0.080 2.84 -0.00
137 203250.16+411836.1 20:32:50.16 41:18:36.14 0.28 5.48 3.84 132 0.91 24 77.1022 0.345 0.173 0.089 0.082 1.73 -0.00
138 203250.25+412216.6 20:32:50.26 41:22:16.68 0.74 8.36 2.90 477 0.86 17 84.6217 0.238 0.135 0.086 0.017 1.55 -0.31
139 203250.39+411038.2 20:32:50.39 41:10:38.21 0.58 6.00 2.80 173 0.90 15 96.4633 0.176 0.034 0.081 0.061 2.20 -0.00
140 203250.41+411749.5 20:32:50.41 41:17:49.52 0.22 4.97 5.48 97 0.90 42 96.1555 0.489 0.094 0.187 0.208 2.27 -0.59
141 203250.42+411629.6 20:32:50.43 41:16:29.61 0.14 4.36 6.47 55 0.87 55 96.4162 0.660 0.257 0.197 0.206 2.02 -0.06
142 203250.69+410825.3 20:32:50.69 41:08:25.30 0.22 7.74 12.31 453 0.90 186 97.2517 2.128 0.800 0.708 0.619 1.95 -1.48
143 203250.69+411609.1 20:32:50.70 41:16: 9.12 0.23 4.20 4.40 56 0.89 28 86.7827 0.372 0.123 0.151 0.098 2.01 -0.75
144 203250.87+411145.6 20:32:50.87 41:11:45.66 0.38 5.17 2.18 95 0.89 9 70.2799 0.160 0.072 0.055 0.033 2.01 -0.02
145 203250.98+411245.6 20:32:50.98 41:12:45.61 0.29 4.58 2.99 66 0.89 15 80.5667 0.217 0.020 0.093 0.104 2.49 -2.98 $\dag $
146 203251.13+411253.5 20:32:51.13 41:12:53.58 0.24 4.50 4.27 72 0.91 27 86.5409 0.352 0.081 0.085 0.185 3.19 -0.59 $\dag $
147 203251.14+411237.7 20:32:51.14 41:12:37.77 0.25 4.62 3.74 78 0.91 22 95.3325 0.259 0.040 0.146 0.073 1.88 -0.01
148 203251.15+412026.1 20:32:51.16 41:20:26.16 0.40 6.71 4.24 246 0.90 29 92.2010 0.359 0.121 0.145 0.094 1.91 -0.06
149 203251.15+412245.8 20:32:51.15 41:22:45.81 0.77 8.70 4.36 665 0.90 33 95.5807 0.395 0.151 0.110 0.134 1.99 -0.12
150 203251.35+411123.7 20:32:51.36 41:11:23.79 0.33 5.34 2.99 120 0.90 16 86.9178 0.207 0.067 0.079 0.061 1.83 -0.34
151 203251.34+411617.2 20:32:51.34 41:16:17.29 0.34 4.13 2.55 54 0.90 11 84.9421 0.157 -0.004 0.049 0.112 3.88 -0.02
152 203251.36+411409.0 20:32:51.36 41:14: 9.06 0.14 4.01 6.31 50 0.89 53 91.9120 0.653 0.164 0.250 0.238 2.04 -0.11
153 203251.55+411300.7 20:32:51.56 41:13: 0.70 0.28 4.37 3.47 67 0.90 19 84.1506 0.259 0.164 0.101 -0.006 1.67 -0.00
154 203251.52+412037.7 20:32:51.53 41:20:37.72 0.56 6.83 2.73 259 0.89 15 67.0227 0.259 0.088 0.027 0.145 2.59 -0.11
155 203251.70+411710.9 20:32:51.71 41:17:10.97 0.52 4.42 2.28 61 0.89 10 71.5237 0.164 0.009 0.042 0.113 3.28 -0.46
156 203252.00+411600.7 20:32:52.00 41:16: 0.77 0.23 3.93 3.81 49 0.90 22 88.8589 0.285 0.057 0.121 0.107 2.40 -0.94
157 203252.11+411313.5 20:32:52.12 41:13:13.54 0.38 4.18 1.96 60 0.90 8 91.3183 0.102 0.041 0.044 0.017 2.08 -0.46
158 203252.12+411828.6 20:32:52.13 41:18:28.62 0.41 5.13 3.66 106 0.90 21 95.8759 0.253 0.040 0.121 0.092 2.27 -0.61
159 203252.17+411815.7 20:32:52.18 41:18:15.74 0.22 4.98 3.67 95 0.90 21 79.3825 0.307 0.117 0.103 0.086 1.79 -2.12
160 203252.41+411029.8 20:32:52.41 41:10:29.82 0.41 5.85 3.64 161 0.90 22 84.7160 0.290 0.082 0.068 0.140 2.50 -0.00
161 203252.47+411541.3 20:32:52.47 41:15:41.32 0.17 3.77 4.83 45 0.90 33 89.6976 0.419 0.019 0.096 0.304 4.47 -0.38
162 203252.52+411736.5 20:32:52.52 41:17:36.53 0.30 4.52 3.20 64 0.89 17 81.1321 0.240 0.063 0.091 0.086 1.98 -0.06
163 203252.59+411255.2 20:32:52.60 41:12:55.22 0.35 4.24 2.39 54 0.89 10 95.0938 0.129 0.008 0.032 0.089 3.58 -0.54
164 203252.60+412102.5 20:32:52.60 41:21: 2.52 0.29 7.07 7.98 319 0.90 85 93.6867 1.008 0.363 0.438 0.207 2.04 -1.34 $\dag $
165 203252.69+411019.4 20:32:52.70 41:10:19.49 0.18 5.95 9.25 172 0.90 106 96.2811 1.225 0.419 0.509 0.297 2.05 -0.28
166 203252.84+411955.0 20:32:52.84 41:19:55.02 0.30 6.11 4.77 181 0.90 35 96.7271 0.406 0.119 0.196 0.091 1.95 -0.13
167 203253.12+411559.0 20:32:53.12 41:15:59.08 0.27 3.72 2.40 44 0.90 10 70.8547 0.173 0.073 0.059 0.041 1.77 -0.89
168 203253.37+411927.7 20:32:53.37 41:19:27.76 0.52 5.69 2.37 144 0.90 11 79.1627 0.165 0.050 0.103 0.012 1.80 -0.00
169 203253.55+410714.1 20:32:53.55 41:07:14.19 0.65 8.53 4.71 809 0.90 41 92.3517 0.497 0.008 0.122 0.367 4.04 -0.24
170 203253.53+411545.3 20:32:53.54 41:15:45.32 0.14 3.59 5.29 40 0.89 39 96.6235 0.453 0.112 0.241 0.100 2.18 -0.01
171 203253.56+412019.4 20:32:53.57 41:20:19.47 0.49 6.36 2.16 207 0.90 11 66.5233 0.191 -0.017 0.043 0.165 3.85 -0.89
172 203253.77+411513.3 20:32:53.77 41:15:13.32 0.06 3.47 13.82 38 0.89 219 95.0718 2.589 0.552 0.955 1.083 2.42 -4.00 $\dag $
173 203253.88+411216.0 20:32:53.88 41:12:16.10 0.51 4.41 1.49 60 0.89 5 86.7702 0.073 0.021 0.023 0.029 2.33 -0.01
174 203253.90+411536.7 20:32:53.91 41:15:36.79 0.15 3.50 1.17 38 0.89 3 66.6521 0.067 -0.005 0.079 -0.007 1.80 -0.18
175 203253.95+411702.7 20:32:53.95 41:17: 2.72 0.33 3.99 3.00 49 0.90 15 94.7703 0.184 0.030 0.054 0.100 2.84 -1.06
176 203254.09+411726.5 20:32:54.10 41:17:26.56 0.49 4.19 2.02 54 0.90 8 69.7616 0.138 0.041 0.059 0.039 2.24 -0.14
177 203254.17+411128.1 20:32:54.18 41:11:28.17 0.20 4.91 6.18 82 0.89 51 89.2798 0.653 0.029 0.157 0.468 3.98 -0.45
178 203254.22+410818.2 20:32:54.22 41:08:18.20 0.30 7.51 8.88 414 0.90 103 95.6435 1.199 0.302 0.477 0.420 2.15 -1.41
179 203254.19+411242.4 20:32:54.20 41:12:42.41 0.15 4.10 5.73 49 0.90 44 96.9250 0.517 0.123 0.238 0.156 2.14 -0.58
180 203254.21+411025.4 20:32:54.21 41:10:25.42 0.35 5.70 4.04 151 0.90 25 87.7564 0.325 0.145 0.081 0.100 1.79 -0.95
181 203254.28+411433.5 20:32:54.29 41:14:33.51 0.19 3.40 1.42 34 0.89 5 40.9367 0.140 0.074 0.021 0.045 2.23 -0.26
182 203254.28+412333.2 20:32:54.29 41:23:33.28 0.68 9.18 4.96 959 0.90 42 94.5504 0.498 0.171 0.195 0.132 2.01 -0.57
183 203254.33+411458.5 20:32:54.33 41:14:58.56 0.16 3.36 4.44 35 0.89 28 95.4425 0.337 0.105 0.140 0.092 1.98 -0.23
184 203254.39+410640.9 20:32:54.40 41:06:40.93 0.56 8.98 6.28 1066 0.90 65 93.0616 0.780 0.146 0.291 0.342 2.28 -1.88
185 203254.43+411550.0 20:32:54.43 41:15:50.00 0.33 3.44 2.13 37 0.89 9 76.9451 0.133 0.039 0.070 0.023 1.91 -0.06
186 203254.56+410840.2 20:32:54.57 41:08:40.27 0.59 7.16 2.59 323 0.89 14 91.6230 0.177 0.030 0.067 0.080 2.46 -0.01
187 203254.55+411446.5 20:32:54.56 41:14:46.54 0.11 3.33 6.06 33 0.89 49 92.8072 0.595 0.154 0.191 0.250 2.45 -1.47
188 203254.61+411341.4 20:32:54.62 41:13:41.45 0.15 3.56 4.30 36 0.90 27 87.5303 0.352 0.045 0.211 0.096 2.23 -0.06
189 203254.60+411932.8 20:32:54.61 41:19:32.84 0.37 5.61 3.89 137 0.90 24 90.7121 0.302 0.118 0.076 0.108 1.92 -1.80
190 203254.79+411203.0 20:32:54.80 41:12: 3.06 0.14 4.42 7.05 69 0.90 64 95.9199 0.745 0.181 0.261 0.303 2.37 -0.75
191 203254.89+411517.8 20:32:54.89 41:15:17.90 0.18 3.27 2.55 33 0.89 12 76.5117 0.176 0.069 0.069 0.039 1.88 -0.09
192 203255.02+411038.8 20:32:55.03 41:10:38.90 0.76 5.43 1.24 130 0.91 4 89.9803 0.058 0.017 0.017 0.023 2.05 -0.15
193 203255.12+411314.8 20:32:55.13 41:13:14.80 0.11 3.67 6.69 39 0.89 58 91.1770 0.723 0.180 0.255 0.288 2.08 -0.59
194 203255.15+411651.9 20:32:55.15 41:16:51.99 0.17 3.71 3.85 42 0.89 23 81.2326 0.317 0.051 0.161 0.105 2.26 -2.17
195 203255.27+410832.0 20:32:55.28 41:08:32.06 0.36 7.22 6.52 332 0.90 59 84.1694 0.790 0.101 0.298 0.390 2.71 -4.00 $\dag $
196 203255.26+411747.5 20:32:55.26 41:17:47.54 0.27 4.23 3.39 55 0.89 18 75.9337 0.277 -0.007 0.070 0.214 4.30 -0.00
197 203255.33+411821.9 20:32:55.33 41:18:21.93 0.50 4.62 1.92 69 0.89 8 85.6897 0.107 0.032 0.059 0.016 1.98 -0.02
198 203255.34+411852.5 20:32:55.35 41:18:52.53 0.31 5.00 2.89 84 0.89 15 87.6465 0.193 0.057 0.084 0.053 2.04 -1.62
199 203255.67+411519.0 20:32:55.67 41:15:19.01 0.17 3.13 3.66 30 0.90 21 86.5723 0.272 0.073 0.113 0.086 1.91 -0.54
200 203255.78+411012.2 20:32:55.78 41:10:12.26 0.32 5.72 4.16 154 0.90 27 85.4195 0.359 0.108 0.131 0.120 2.26 -0.02
201 203255.72+412246.6 20:32:55.73 41:22:46.70 0.78 8.36 2.61 586 0.90 16 81.1886 0.220 0.078 0.035 0.107 2.55 -0.92
202 203255.86+412233.4 20:32:55.87 41:22:33.46 0.65 8.15 3.50 537 0.90 24 93.3757 0.290 0.106 0.117 0.067 1.97 -0.03
203 203256.28+411317.6 20:32:56.29 41:13:17.65 0.25 3.45 2.84 34 0.89 14 84.0375 0.189 0.037 0.104 0.048 2.04 -0.02
204 203256.35+411436.7 20:32:56.36 41:14:36.78 0.20 3.01 2.72 28 0.90 13 89.2861 0.164 0.071 0.059 0.034 1.77 -0.00
205 203256.40+411206.6 20:32:56.40 41:12: 6.69 0.29 4.15 2.76 59 0.90 13 92.5873 0.164 -0.004 0.056 0.112 3.67 -0.75
206 203256.49+411053.1 20:32:56.49 41:10:53.11 0.16 5.08 7.43 105 0.90 71 95.9419 0.826 0.157 0.386 0.284 2.26 -1.15 $\dag $
207 203256.55+411314.8 20:32:56.56 41:13:14.88 0.27 3.43 3.10 34 0.89 16 94.6415 0.192 0.021 0.045 0.126 3.35 -0.12
208 203256.61+411401.9 20:32:56.62 41:14: 1.96 0.33 3.09 1.80 29 0.89 7 94.4625 0.084 0.056 0.021 0.007 1.47 -0.50
209 203256.66+412015.9 20:32:56.66 41:20:15.97 0.43 6.01 3.71 173 0.90 23 91.6136 0.282 0.072 0.158 0.052 2.07 -0.26
210 203256.71+411044.8 20:32:56.71 41:10:44.80 0.44 5.17 2.73 112 0.91 13 76.9294 0.200 0.052 0.106 0.042 2.14 -0.00
211 203256.69+412025.4 20:32:56.70 41:20:25.40 0.49 6.15 3.13 186 0.90 18 93.9128 0.214 0.094 0.070 0.050 2.11 -1.11
212 203256.74+411215.8 20:32:56.74 41:12:15.88 0.19 4.00 2.66 53 0.90 12 88.3941 0.162 0.008 0.047 0.106 2.97 -1.06
213 203256.85+411441.0 20:32:56.85 41:14:41.04 0.17 2.91 3.24 27 0.90 17 88.7113 0.217 0.072 0.073 0.072 2.17 -0.00
214 203257.07+410903.8 20:32:57.08 41:09: 3.85 0.54 6.59 2.65 249 0.89 14 81.3142 0.204 0.013 0.050 0.141 3.28 -0.54
215 203257.06+411313.9 20:32:57.06 41:13:13.98 0.32 3.36 2.31 33 0.89 10 75.1704 0.153 0.012 0.041 0.100 2.85 -0.04
216 203257.17+412123.3 20:32:57.17 41:21:23.33 0.64 6.98 2.98 282 0.89 17 91.9308 0.214 0.086 0.036 0.092 2.10 -0.38
217 203257.25+411445.4 20:32:57.25 41:14:45.46 0.21 2.83 2.80 26 0.90 13 91.1173 0.166 0.047 0.072 0.047 2.15 -0.23
218 203257.32+412047.5 20:32:57.33 41:20:47.51 0.27 6.42 6.08 215 0.90 52 93.7872 0.620 0.069 0.331 0.220 2.15 -3.18 $\dag $
219 203257.36+411333.3 20:32:57.36 41:13:33.32 0.08 3.15 8.14 29 0.89 83 92.7538 1.002 0.226 0.346 0.430 2.47 -0.86
220 203257.56+411234.7 20:32:57.56 41:12:34.70 0.14 3.68 5.56 38 0.89 42 87.0403 0.545 0.164 0.165 0.215 2.12 -2.63
221 203257.73+411029.4 20:32:57.74 41:10:29.49 0.43 5.28 2.24 106 0.89 10 93.7086 0.123 0.055 0.030 0.038 1.72 -0.81
222 203257.80+410937.9 20:32:57.80 41:09:37.98 0.41 6.02 3.16 185 0.90 18 84.5463 0.245 0.020 0.093 0.132 3.13 -0.90
223 203257.82+411359.1 20:32:57.82 41:13:59.16 0.17 2.89 2.86 27 0.89 14 78.1638 0.204 0.025 0.082 0.096 2.50 -0.50
224 203257.91+411619.0 20:32:57.92 41:16:19.06 0.10 2.99 4.19 28 0.90 26 86.7827 0.336 0.100 0.164 0.073 2.04 -0.48
225 203257.94+412156.9 20:32:57.95 41:21:56.92 0.58 7.44 3.79 333 0.88 25 93.8249 0.305 0.041 0.078 0.186 3.29 -0.14
226 203258.03+411058.1 20:32:58.04 41:10:58.12 0.17 4.84 7.38 93 0.90 70 97.3993 0.798 0.110 0.288 0.400 2.73 -3.05 $\dag $
227 203258.09+410713.6 20:32:58.10 41:07:13.68 0.62 8.22 4.66 649 0.90 39 95.4833 0.460 0.085 0.148 0.227 2.77 -2.11
228 203258.16+411735.0 20:32:58.16 41:17:35.08 0.26 3.69 2.53 39 0.90 11 88.9186 0.149 0.020 0.085 0.043 2.30 -0.35
229 203258.22+411250.6 20:32:58.23 41:12:50.65 0.19 3.41 3.69 33 0.89 21 79.6181 0.300 0.053 0.124 0.123 2.34 -2.72
230 203258.27+411617.8 20:32:58.27 41:16:17.86 0.20 2.92 2.16 28 0.90 9 92.3266 0.112 0.022 0.034 0.056 2.45 -0.22
231 203258.27+412147.8 20:32:58.27 41:21:47.81 0.51 7.27 3.77 287 0.87 24 88.8684 0.311 0.089 0.169 0.053 2.07 -0.24
232 203258.37+412000.9 20:32:58.37 41:20: 0.96 0.38 5.64 3.07 142 0.90 17 73.4617 0.269 -0.003 0.028 0.244 4.32 -0.06
233 203258.39+411543.2 20:32:58.40 41:15:43.23 0.08 2.69 7.23 25 0.90 67 96.8402 0.774 0.043 0.170 0.561 3.72 -0.49
234 203258.44+411105.4 20:32:58.45 41:11: 5.50 0.36 4.70 1.62 75 0.89 6 43.8201 0.165 0.092 0.013 0.060 1.45 -4.00
235 203258.45+411403.9 20:32:58.45 41:14: 3.92 0.18 2.76 2.19 25 0.89 9 58.1085 0.181 0.016 0.112 0.053 2.30 -0.11
236 203258.52+411234.8 20:32:58.52 41:12:34.82 0.32 3.54 2.35 35 0.90 10 82.6397 0.140 0.065 0.052 0.024 1.85 -0.03
237 203258.54+411525.2 20:32:58.55 41:15:25.24 0.21 2.60 2.17 24 0.89 9 91.6042 0.113 0.022 0.046 0.045 2.23 -0.39
238 203258.73+411226.6 20:32:58.73 41:12:26.64 0.10 3.61 7.25 37 0.90 67 95.3797 0.786 0.208 0.266 0.312 2.55 -3.71 $\dag $
239 203258.74+411110.0 20:32:58.75 41:11:10.00 0.14 4.61 7.63 71 0.89 74 96.5984 0.866 0.158 0.378 0.329 2.31 -4.00 $\dag $
240 203258.93+411202.8 20:32:58.94 41:12: 2.84 0.21 3.88 3.23 44 0.89 17 85.6928 0.230 0.060 0.061 0.109 2.53 -0.39
241 203258.93+411840.7 20:32:58.94 41:18:40.78 0.35 4.44 2.26 61 0.89 10 72.4598 0.160 0.069 0.038 0.052 2.01 -0.66
242 203259.00+411051.8 20:32:59.00 41:10:51.89 0.14 4.84 8.66 94 0.90 93 96.8277 1.067 0.236 0.394 0.437 2.34 -0.90
243 203259.04+411758.7 20:32:59.04 41:17:58.78 0.12 3.87 6.43 44 0.90 54 91.5445 0.667 0.178 0.239 0.250 2.10 -3.36
244 203259.17+411937.4 20:32:59.17 41:19:37.44 0.20 5.22 7.19 111 0.91 68 96.2811 0.786 0.684 0.093 0.009 1.09 -0.20
245 203259.20+411229.5 20:32:59.21 41:12:29.60 0.17 3.51 3.72 35 0.90 21 75.1736 0.318 0.116 0.161 0.041 1.76 -0.01
246 203259.21+412049.0 20:32:59.22 41:20:49.02 0.42 6.30 4.54 202 0.90 32 93.6458 0.382 0.132 0.094 0.156 2.36 -0.26
247 203259.24+412137.4 20:32:59.25 41:21:37.47 0.60 7.05 3.61 293 0.89 22 92.0156 0.271 0.060 0.109 0.101 2.42 -0.37
248 203259.24+412238.4 20:32:59.25 41:22:38.42 0.52 8.01 5.12 506 0.90 42 93.5893 0.499 0.133 0.145 0.221 2.30 -0.49
249 203259.31+411037.4 20:32:59.32 41:10:37.41 0.31 5.01 3.01 105 0.91 16 78.5847 0.226 0.061 0.147 0.017 2.05 -0.10
250 203259.38+411223.5 20:32:59.38 41:12:23.51 0.37 3.56 1.69 36 0.90 6 69.0518 0.103 -0.003 0.030 0.076 3.34 -0.20
251 203259.45+410941.4 20:32:59.46 41:09:41.46 0.55 5.84 3.64 171 0.90 22 90.1970 0.277 0.027 0.089 0.161 3.70 -0.46
252 203259.57+411055.1 20:32:59.58 41:10:55.20 0.37 4.73 2.14 89 0.90 9 91.6481 0.114 0.042 0.055 0.017 1.73 -0.15
253 203259.63+411514.6 20:32:59.63 41:15:14.61 0.10 2.38 5.18 22 0.89 37 84.2888 0.498 0.197 0.251 0.050 1.73 -0.46
254 203259.63+411941.0 20:32:59.63 41:19:41.08 0.15 5.24 8.08 111 0.91 83 91.8492 1.007 0.251 0.482 0.274 2.24 -0.02
255 203259.75+411300.0 20:32:59.75 41:13: 0.08 0.19 3.09 2.98 28 0.89 15 87.7533 0.194 0.048 0.074 0.072 1.91 -0.88
256 203259.75+411419.4 20:32:59.76 41:14:19.46 0.09 2.44 6.36 21 0.89 53 92.6910 0.646 0.179 0.252 0.214 2.21 -0.85
257 203259.77+411345.4 20:32:59.77 41:13:45.48 0.14 2.66 1.46 23 0.89 5 81.2671 0.072 0.010 0.053 0.010 1.92 -0.65
258 203259.85+412036.5 20:32:59.85 41:20:36.57 0.45 6.06 3.13 179 0.90 17 83.6574 0.236 0.093 0.067 0.076 2.58 -0.05
259 203259.94+411027.9 20:32:59.94 41:10:27.95 0.32 5.10 3.57 97 0.89 21 85.7462 0.275 0.109 0.097 0.069 1.82 -0.64
260 203259.98+410848.6 20:32:59.99 41:08:48.62 0.14 6.61 15.90 261 0.90 289 94.7138 3.414 0.449 1.156 1.808 2.93 -4.00 $\dag $
261 203300.01+411107.2 20:33: 0.01 41:11: 7.23 0.39 4.52 2.93 68 0.89 14 75.7515 0.221 0.158 0.025 0.038 1.37 -0.00
262 203300.16+411217.6 20:33: 0.16 41:12:17.64 0.29 3.54 2.50 36 0.89 11 87.0089 0.147 0.062 0.024 0.061 1.98 -0.05
263 203300.29+411656.6 20:33: 0.29 41:16:56.61 0.23 2.96 2.01 28 0.89 8 52.7688 0.175 0.080 0.081 0.015 1.70 -0.38
264 203300.38+411730.6 20:33: 0.38 41:17:30.69 0.33 3.35 1.75 34 0.90 6 78.7543 0.098 0.024 0.039 0.034 2.21 -0.10
265 203300.38+411651.7 20:33: 0.39 41:16:51.79 0.34 2.89 1.83 28 0.89 7 83.6323 0.097 0.010 0.051 0.036 2.26 -0.16
266 203300.42+411124.4 20:33: 0.42 41:11:24.44 0.28 4.23 3.14 58 0.90 16 92.0376 0.202 0.056 0.092 0.054 2.24 -0.30
267 203300.41+412030.8 20:33: 0.42 41:20:30.88 0.37 5.93 2.55 48 0.66 12 84.0281 0.217 0.049 0.013 0.156 4.14 -3.55
268 203300.46+411147.5 20:33: 0.47 41:11:47.55 0.31 3.91 2.65 53 0.90 12 85.1683 0.167 0.049 0.074 0.044 2.11 -0.10
269 203300.52+411550.1 20:33: 0.53 41:15:50.15 0.15 2.35 3.13 22 0.89 16 88.7930 0.206 0.047 0.124 0.035 1.91 -1.39
270 203300.52+412214.0 20:33: 0.52 41:22:14.06 0.42 7.55 7.24 384 0.89 71 95.9545 0.838 0.284 0.270 0.284 2.11 -0.00
271 203300.59+411859.3 20:33: 0.59 41:18:59.32 0.08 4.54 12.63 65 0.89 186 97.7071 2.135 0.371 0.878 0.886 2.39 -4.00 $\dag $
272 203300.73+410929.4 20:33: 0.74 41:09:29.41 0.29 5.93 5.19 179 0.90 39 96.9250 0.457 0.119 0.182 0.157 2.28 -0.30
273 203300.77+411627.1 20:33: 0.78 41:16:27.19 0.15 2.59 3.90 23 0.89 23 93.0239 0.281 0.058 0.106 0.117 2.10 -0.13
274 203300.77+412032.1 20:33: 0.78 41:20:32.13 0.31 5.93 1.38 48 0.66 4 65.3611 0.115 0.015 0.063 0.037 2.62 -1.95
275 203300.84+412133.8 20:33: 0.84 41:21:33.80 0.62 6.89 2.56 273 0.90 13 83.1046 0.184 0.048 0.081 0.055 2.02 -0.22
276 203300.88+411115.6 20:33: 0.89 41:11:15.69 0.18 4.31 3.17 61 0.90 16 87.5554 0.215 0.085 0.098 0.033 1.85 -0.13
277 203300.90+411736.7 20:33: 0.90 41:17:36.78 0.17 3.36 3.66 34 0.90 21 81.3771 0.289 0.051 0.134 0.104 2.31 -0.27
278 203300.95+411423.8 20:33: 0.96 41:14:23.81 0.13 2.21 3.49 19 0.90 19 80.2589 0.270 0.052 0.123 0.095 2.52 -0.17
279 203300.95+412119.9 20:33: 0.96 41:21:19.98 0.52 6.67 3.82 247 0.90 24 92.2795 0.299 0.095 0.108 0.096 1.88 -0.42
280 203301.09+411755.7 20:33: 1.09 41:17:55.75 0.08 3.59 9.36 39 0.90 106 92.4114 1.293 0.238 0.564 0.491 2.37 -2.23 $\dag $
281 203301.15+411321.8 20:33: 1.16 41:13:21.82 0.20 2.65 2.04 23 0.90 8 54.9707 0.171 0.058 0.118 -0.005 1.95 -0.10
282 203301.16+411152.7 20:33: 1.16 41:11:52.72 0.38 3.76 2.10 48 0.90 8 88.5009 0.112 0.021 0.047 0.044 1.99 -0.15
283 203301.20+410918.2 20:33: 1.20 41:09:18.28 0.11 6.07 17.51 192 0.90 346 96.7146 3.964 0.605 1.557 1.801 2.64 -3.61 $\dag $
284 203301.21+410858.0 20:33: 1.22 41:08:58.01 0.37 6.39 3.86 231 0.89 25 92.5465 0.310 0.072 0.121 0.117 2.34 -0.34
285 203301.25+411459.5 20:33: 1.26 41:14:59.53 0.17 2.06 2.68 19 0.89 12 78.3774 0.180 0.013 0.098 0.069 2.17 -1.18
286 203301.26+411256.8 20:33: 1.27 41:12:56.84 0.12 2.92 1.02 26 0.89 3 53.1206 0.069 0.061 -0.006 0.014 1.37 -0.00
287 203301.35+411055.5 20:33: 1.36 41:10:55.60 0.41 4.57 2.55 81 0.90 12 84.4490 0.161 -0.008 0.100 0.069 2.41 -1.83
288 203301.35+411223.6 20:33: 1.36 41:12:23.61 0.20 3.32 3.13 32 0.90 16 82.5204 0.221 0.037 0.106 0.078 2.56 -4.00 $\dag $
289 203301.35+411331.2 20:33: 1.36 41:13:31.30 0.27 2.53 2.35 22 0.89 10 86.7702 0.134 0.011 0.088 0.036 2.12 -0.00
290 203301.38+412158.5 20:33: 1.38 41:21:58.56 0.54 7.26 3.47 358 0.90 21 94.6792 0.256 0.039 0.129 0.087 2.42 -0.44
291 203301.43+411200.2 20:33: 1.44 41:12: 0.25 0.29 3.63 2.44 44 0.90 11 88.3375 0.140 0.022 0.073 0.045 2.52 -0.70
292 203301.49+411211.5 20:33: 1.49 41:12:11.55 0.11 3.47 3.24 4 0.39 16 80.1269 0.547 0.161 0.226 0.160 2.08 -0.13
293 203301.49+411211.6 20:33: 1.49 41:12:11.64 0.10 3.47 3.36 4 0.39 17 80.1269 0.579 0.193 0.226 0.160 1.98 -0.13
294 203301.58+412302.9 20:33: 1.58 41:23: 2.97 0.70 8.28 4.80 679 0.91 40 95.6906 0.471 0.130 0.164 0.177 2.20 -1.67
295 203301.67+411248.2 20:33: 1.68 41:12:48.27 0.16 2.97 3.46 27 0.89 19 92.0345 0.235 0.034 0.046 0.154 3.37 -0.61
296 203301.66+411959.0 20:33: 1.66 41:19:59.09 0.49 5.35 2.77 121 0.90 14 80.4473 0.204 0.095 0.003 0.106 2.81 -0.03
297 203301.68+411751.4 20:33: 1.68 41:17:51.40 0.17 3.47 4.08 37 0.89 25 95.9890 0.293 0.102 0.172 0.019 1.86 -0.06
298 203301.72+411147.0 20:33: 1.72 41:11:47.08 0.34 3.78 2.22 49 0.90 9 50.9062 0.213 0.058 0.125 0.031 2.04 -1.00
299 203301.72+411500.5 20:33: 1.72 41:15: 0.58 0.07 1.97 7.15 18 0.89 65 95.7848 0.766 0.279 0.244 0.243 1.96 -0.44
300 203301.77+411110.5 20:33: 1.77 41:11:10.58 0.07 4.31 15.46 61 0.89 270 94.2866 3.212 1.573 0.981 0.658 1.70 -4.00 $\dag $
301 203301.80+411103.9 20:33: 1.81 41:11: 3.92 0.20 4.41 4.27 64 0.89 27 92.0690 0.336 0.019 0.142 0.175 2.81 -0.97
302 203301.83+411317.3 20:33: 1.84 41:13:17.33 0.15 2.60 3.83 22 0.89 22 84.6845 0.297 0.078 0.143 0.076 2.01 -0.42
303 203301.94+411059.0 20:33: 1.94 41:10:59.02 0.21 4.47 3.64 67 0.89 21 77.9251 0.308 0.007 0.110 0.192 2.99 -0.00
304 203301.93+411739.3 20:33: 1.93 41:17:39.30 0.41 3.28 1.27 33 0.89 4 60.2758 0.080 0.015 0.052 0.013 2.37 -0.07
305 203301.97+410644.4 20:33: 1.97 41:06:44.42 0.76 8.49 4.07 859 0.89 33 94.0918 0.394 0.076 0.182 0.136 2.11 -0.07
306 203301.95+411946.8 20:33: 1.96 41:19:46.88 0.28 5.15 3.64 107 0.90 22 84.7693 0.289 0.041 0.174 0.074 1.95 -0.04
307 203302.18+411848.8 20:33: 2.19 41:18:48.84 0.23 4.24 3.70 56 0.89 22 82.2691 0.301 0.114 0.144 0.044 1.74 -0.09
308 203302.26+411533.4 20:33: 2.26 41:15:33.44 0.10 1.95 5.17 18 0.89 37 94.8802 0.441 0.115 0.187 0.139 2.17 -0.54
309 203302.31+411324.2 20:33: 2.31 41:13:24.28 0.10 2.46 5.11 21 0.89 36 88.3564 0.462 0.176 0.175 0.112 1.88 -0.70
310 203302.35+411828.1 20:33: 2.35 41:18:28.15 0.37 3.92 1.77 47 0.90 7 78.4497 0.104 0.035 0.021 0.048 3.45 -0.14 $\dag $
311 203302.40+411738.4 20:33: 2.40 41:17:38.48 0.31 3.21 2.18 32 0.89 9 67.5252 0.155 0.079 0.030 0.046 1.54 -0.16
312 203302.63+411355.7 20:33: 2.64 41:13:55.77 0.26 2.10 2.05 19 0.89 8 66.4793 0.142 0.048 0.082 0.013 1.83 -0.02
313 203302.87+410705.9 20:33: 2.88 41:07: 5.96 0.59 8.11 5.01 630 0.90 41 95.0279 0.482 0.070 0.211 0.201 2.45 -2.29
314 203302.87+411514.0 20:33: 2.88 41:15:14.01 0.11 1.77 2.76 17 0.89 13 94.2929 0.159 0.021 0.082 0.056 2.64 -0.50
315 203302.90+411742.9 20:33: 2.91 41:17:42.97 0.08 3.22 9.39 29 0.88 107 96.4821 1.258 0.607 0.525 0.126 1.72 -0.30
316 203303.03+411329.2 20:33: 3.04 41:13:29.28 0.13 2.30 4.31 20 0.89 27 91.6984 0.335 0.084 0.181 0.071 2.24 -0.29
317 203303.03+411740.1 20:33: 3.03 41:17:40.19 0.18 3.17 3.60 29 0.88 20 75.9306 0.303 0.072 0.131 0.101 2.14 -1.08
318 203303.07+411243.4 20:33: 3.08 41:12:43.48 0.14 2.86 3.04 26 0.89 15 89.9080 0.193 0.073 0.061 0.059 1.86 -0.28
319 203303.22+411629.4 20:33: 3.22 41:16:29.46 0.10 2.25 3.58 20 0.89 20 84.2982 0.269 -0.003 0.050 0.223 3.57 -0.04
320 203303.53+411253.6 20:33: 3.54 41:12:53.64 0.14 2.67 4.29 26 0.90 27 70.4841 0.429 0.091 0.076 0.262 3.51 -2.02 $\dag $
321 203303.64+411236.6 20:33: 3.64 41:12:36.62 0.17 2.89 3.17 26 0.89 16 80.8023 0.229 0.053 0.109 0.066 2.27 -0.00
322 203303.66+411334.2 20:33: 3.66 41:13:34.25 0.15 2.16 2.90 19 0.89 14 84.9358 0.190 -0.002 0.024 0.169 3.73 -0.01
323 203303.66+411218.2 20:33: 3.67 41:12:18.25 0.24 3.15 2.31 29 0.90 10 69.7082 0.164 0.013 0.077 0.074 2.30 -0.57
324 203303.88+411736.2 20:33: 3.89 41:17:36.24 0.10 3.03 5.93 29 0.90 47 96.2654 0.548 0.113 0.252 0.183 2.28 -0.28
325 203304.06+411124.5 20:33: 4.06 41:11:24.54 0.25 3.92 3.25 49 0.90 17 81.9676 0.241 0.037 0.089 0.115 2.65 -0.15
326 203304.10+410755.3 20:33: 4.11 41:07:55.31 0.40 7.25 5.40 397 0.90 47 93.2846 0.568 0.182 0.238 0.148 2.01 -0.17
327 203304.16+410651.5 20:33: 4.16 41:06:51.52 0.43 8.29 8.63 773 0.90 97 96.0707 1.127 0.293 0.421 0.413 2.40 -0.94
328 203304.22+411411.7 20:33: 4.23 41:14:11.76 0.17 1.71 1.76 16 0.89 6 79.7437 0.094 -0.002 -0.001 0.097 5.16 -0.06
329 203304.26+410723.1 20:33: 4.26 41:07:23.16 0.60 7.77 3.40 487 0.90 23 90.2033 0.290 0.039 0.116 0.135 2.75 -0.01
330 203304.24+411254.6 20:33: 4.25 41:12:54.62 0.08 2.58 7.26 22 0.89 67 97.2517 0.780 0.137 0.322 0.321 2.66 -2.40
331 203304.28+411235.2 20:33: 4.28 41:12:35.22 0.19 2.85 2.80 25 0.89 13 87.8098 0.173 0.024 0.088 0.061 2.38 -0.02
332 203304.30+411613.4 20:33: 4.31 41:16:13.48 0.23 1.92 2.37 18 0.89 10 92.6784 0.127 0.058 0.047 0.022 1.80 -0.01
333 203304.32+411420.4 20:33: 4.32 41:14:20.48 0.19 1.63 1.74 16 0.89 6 80.1615 0.092 0.026 0.026 0.040 2.12 -0.49
334 203304.38+411405.3 20:33: 4.39 41:14: 5.38 0.23 1.74 2.38 18 0.90 10 75.1390 0.156 0.027 0.058 0.071 2.68 -0.28
335 203304.42+411830.8 20:33: 4.42 41:18:30.81 0.07 3.80 10.90 43 0.90 141 94.4656 1.669 0.324 0.727 0.619 2.33 -4.00 $\dag $
336 203304.48+411128.1 20:33: 4.48 41:11:28.10 0.13 3.83 7.67 47 0.89 74 93.3160 0.897 0.069 0.391 0.438 2.74 -4.00 $\dag $
337 203304.49+411157.6 20:33: 4.50 41:11:57.63 0.27 3.38 1.99 34 0.89 8 83.0795 0.111 -0.003 0.051 0.063 2.81 -0.08
338 203304.57+411612.9 20:33: 4.57 41:16:12.98 0.11 1.88 3.05 18 0.89 15 82.2314 0.212 0.052 0.080 0.079 2.23 -0.62
339 203304.67+411205.9 20:33: 4.67 41:12: 5.98 0.27 3.24 2.33 31 0.89 10 88.0925 0.131 0.049 0.023 0.059 2.21 -1.22
340 203304.70+411506.2 20:33: 4.70 41:15: 6.26 0.17 1.42 2.34 17 0.90 10 90.1153 0.128 0.010 0.096 0.022 2.24 -0.08
341 203304.75+411312.4 20:33: 4.75 41:13:12.40 0.12 2.29 4.67 19 0.89 31 96.3534 0.365 0.067 0.173 0.125 2.45 -0.40
342 203304.75+411650.4 20:33: 4.75 41:16:50.41 0.20 2.31 3.13 21 0.89 16 86.6320 0.211 0.049 0.114 0.049 2.10 -0.13
343 203304.78+410857.2 20:33: 4.79 41:08:57.23 0.59 6.22 2.75 217 0.90 15 94.4436 0.185 -0.003 0.031 0.156 4.02 -0.25
344 203304.86+411238.7 20:33: 4.86 41:12:38.70 0.24 2.74 2.78 24 0.89 13 63.5582 0.238 0.086 0.103 0.049 1.96 -0.62
345 203304.95+411129.5 20:33: 4.95 41:11:29.50 0.24 3.78 3.84 46 0.89 22 90.2598 0.284 0.058 0.070 0.156 3.00 -0.40
346 203305.01+411256.2 20:33: 5.02 41:12:56.22 0.25 2.48 1.72 21 0.89 6 61.1490 0.120 0.053 0.053 0.015 2.04 -0.10
347 203305.03+411421.5 20:33: 5.04 41:14:21.55 0.13 1.50 1.24 2 0.42 3 43.5845 0.215 -0.001 0.163 0.053 2.19 -0.09
348 203305.03+411831.4 20:33: 5.03 41:18:31.43 0.20 3.76 2.72 42 0.90 13 93.8029 0.161 0.053 0.089 0.018 1.89 -0.52
349 203305.04+411146.6 20:33: 5.05 41:11:46.64 0.14 3.50 2.15 7 0.47 8 88.1585 0.215 0.072 0.072 0.071 2.01 -0.35
350 203305.03+411421.4 20:33: 5.04 41:14:21.44 0.13 1.50 1.24 2 0.42 3 43.5845 0.215 -0.001 0.163 0.053 2.19 -0.09
351 203305.05+411144.8 20:33: 5.05 41:11:44.88 0.09 3.53 5.16 7 0.47 36 93.9442 0.837 0.090 0.476 0.271 2.24 -2.41
352 203305.17+411233.2 20:33: 5.18 41:12:33.26 0.08 2.79 7.31 25 0.89 68 94.7043 0.809 0.188 0.281 0.340 2.47 -1.64
353 203305.20+411335.6 20:33: 5.21 41:13:35.65 0.15 1.94 3.04 17 0.89 15 91.2398 0.190 0.072 0.072 0.047 1.80 -0.04
354 203305.25+411604.5 20:33: 5.25 41:16: 4.52 0.11 1.69 4.69 17 0.89 31 94.1609 0.376 0.212 0.070 0.094 1.63 -0.86
355 203305.26+412138.7 20:33: 5.27 41:21:38.74 0.45 6.76 4.22 261 0.89 30 92.4397 0.372 0.128 0.121 0.122 2.10 -1.29
356 203305.28+411258.6 20:33: 5.29 41:12:58.68 0.11 2.42 4.86 21 0.89 33 91.5194 0.411 0.084 0.182 0.145 2.33 -0.67
357 203305.30+411303.6 20:33: 5.30 41:13: 3.68 0.15 2.34 3.04 20 0.89 15 86.6320 0.201 0.075 0.102 0.023 1.83 -0.00
358 203305.36+411311.8 20:33: 5.36 41:13:11.83 0.13 2.23 4.01 19 0.89 24 79.7720 0.342 0.095 0.124 0.123 2.27 -1.55
359 203305.41+411153.6 20:33: 5.41 41:11:53.63 0.10 3.37 6.95 35 0.89 62 94.2772 0.745 0.118 0.261 0.367 2.72 -0.27
360 203305.47+411610.5 20:33: 5.47 41:16:10.56 0.14 1.72 3.05 17 0.89 15 72.5728 0.241 0.044 0.075 0.122 3.18 -0.21
361 203305.59+411348.2 20:33: 5.60 41:13:48.29 0.08 1.73 6.77 18 0.90 59 94.6729 0.699 0.198 0.315 0.186 2.02 -0.33
362 203305.72+411136.7 20:33: 5.72 41:11:36.78 0.28 3.61 2.43 42 0.89 11 64.6952 0.193 0.013 0.065 0.115 2.83 -0.29
363 203305.79+411634.7 20:33: 5.79 41:16:34.78 0.32 1.98 1.88 19 0.89 7 88.1302 0.095 -0.003 0.024 0.074 3.66 -0.20
364 203305.89+411905.0 20:33: 5.90 41:19: 5.05 0.30 4.24 2.01 57 0.90 8 80.0767 0.124 0.019 0.057 0.048 1.95 -0.17
365 203305.92+412057.5 20:33: 5.93 41:20:57.52 0.67 6.06 2.17 186 0.90 10 95.0687 0.127 0.055 0.053 0.018 1.77 -0.18
366 203306.07+411256.7 20:33: 6.07 41:12:56.73 0.06 2.37 10.15 21 0.89 123 94.8237 1.463 0.378 0.555 0.531 2.18 -0.26
367 203306.13+411012.6 20:33: 6.14 41:10:12.61 0.58 4.94 1.56 96 0.89 6 83.3716 0.083 0.035 0.033 0.014 1.76 -1.01
368 203306.19+411453.8 20:33: 6.20 41:14:53.81 0.28 1.14 1.03 16 0.90 3 14.3889 0.254 -0.016 0.132 0.137 2.97 -0.48
369 203306.21+411715.3 20:33: 6.21 41:17:15.37 0.20 2.51 1.47 23 0.90 5 80.8745 0.073 0.039 0.010 0.024 1.66 -0.20
370 203306.20+412242.9 20:33: 6.20 41:22:42.96 0.69 7.79 2.92 527 0.90 19 81.9142 0.262 0.035 0.172 0.056 2.14 -0.65
371 203306.24+410948.3 20:33: 6.24 41:09:48.34 0.58 5.33 2.55 139 0.90 12 76.3169 0.184 0.011 0.063 0.110 3.50 -0.27
372 203306.26+411235.1 20:33: 6.27 41:12:35.13 0.08 2.67 7.18 24 0.89 66 95.5587 0.779 0.163 0.408 0.208 2.08 -0.26
373 203306.27+411100.4 20:33: 6.28 41:11: 0.42 0.33 4.16 2.12 59 0.89 9 82.9381 0.127 0.021 0.061 0.045 2.21 -0.00
374 203306.27+412019.0 20:33: 6.28 41:20:19.03 0.46 5.42 2.31 114 0.89 11 92.9297 0.139 0.093 0.036 0.009 1.60 -0.10
375 203306.32+412215.2 20:33: 6.32 41:22:15.28 0.62 7.33 3.41 350 0.89 21 94.4028 0.255 0.104 0.045 0.105 2.00 -0.35
376 203306.35+411353.1 20:33: 6.35 41:13:53.11 0.21 1.58 1.51 18 0.90 5 88.3061 0.068 0.048 0.022 -0.002 1.42 -0.13
377 203306.38+411330.7 20:33: 6.39 41:13:30.79 0.14 1.86 3.14 17 0.89 16 82.1340 0.224 0.052 0.093 0.079 2.20 -0.07
378 203306.47+411206.8 20:33: 6.47 41:12: 6.87 0.08 3.09 9.30 30 0.90 105 95.9230 1.225 0.208 0.498 0.519 2.64 -0.06
379 203306.61+412158.3 20:33: 6.61 41:21:58.36 0.33 7.04 7.15 305 0.89 69 95.3859 0.817 0.029 0.305 0.483 3.38 -0.00
380 203306.64+411817.7 20:33: 6.64 41:18:17.78 0.49 3.45 1.13 36 0.90 3 40.3870 0.106 0.044 0.015 0.046 2.02 -0.12
381 203306.71+411200.0 20:33: 6.72 41:12: 0.00 0.08 3.18 8.48 32 0.89 89 97.4307 1.027 0.124 0.504 0.398 2.34 -1.43
382 203306.73+411527.5 20:33: 6.74 41:15:27.58 0.12 1.12 1.84 16 0.90 7 56.2836 0.144 -0.004 0.015 0.133 3.89 -0.21
383 203306.79+411727.8 20:33: 6.80 41:17:27.85 0.14 2.66 4.30 25 0.89 27 88.1711 0.347 0.086 0.124 0.137 2.08 -0.39
384 203306.84+411224.3 20:33: 6.84 41:12:24.38 0.12 2.80 5.08 26 0.89 36 95.7503 0.424 0.033 0.161 0.230 3.19 -4.00 $\dag $
385 203306.85+411503.4 20:33: 6.86 41:15: 3.49 0.19 1.01 2.02 15 0.90 8 94.2929 0.098 0.033 0.044 0.021 1.86 -0.20
386 203306.91+411647.2 20:33: 6.91 41:16:47.28 0.22 2.04 1.71 19 0.89 6 74.0742 0.098 0.012 0.012 0.073 4.11 -0.17
387 203306.93+411858.9 20:33: 6.94 41:18:58.96 0.17 4.09 4.55 53 0.90 31 89.5185 0.391 0.137 0.214 0.039 1.76 -0.26
388 203307.00+411649.6 20:33: 7.01 41:16:49.70 0.10 2.06 5.26 19 0.89 38 94.2426 0.458 0.188 0.141 0.129 2.20 -0.30
389 203307.06+411300.1 20:33: 7.07 41:13: 0.15 0.08 2.23 6.76 20 0.89 59 93.5704 0.714 0.118 0.358 0.238 2.43 -0.00
390 203307.07+411604.3 20:33: 7.08 41:16: 4.36 0.10 1.44 4.21 17 0.90 26 91.5413 0.320 0.033 0.131 0.156 2.55 -4.00 $\dag $
391 203307.13+411625.7 20:33: 7.13 41:16:25.72 0.17 1.71 1.84 19 0.90 7 69.4067 0.116 0.027 0.045 0.044 2.68 -0.09
392 203307.14+411141.2 20:33: 7.15 41:11:41.20 0.17 3.46 5.74 39 0.89 45 85.8907 0.589 0.101 0.245 0.243 2.46 -1.78
393 203307.14+412006.9 20:33: 7.14 41:20: 6.93 0.19 5.19 6.98 101 0.89 65 97.0067 0.755 0.309 0.312 0.134 1.82 -1.76
394 203307.15+411318.7 20:33: 7.16 41:13:18.78 0.14 1.95 2.27 18 0.89 10 93.8406 0.120 0.021 0.020 0.080 3.22 -0.00
395 203307.16+411730.4 20:33: 7.16 41:17:30.44 0.24 2.67 2.47 25 0.89 11 96.1523 0.131 0.067 0.067 -0.002 1.66 -0.32
396 203307.17+411520.2 20:33: 7.17 41:15:20.20 0.08 1.00 5.64 15 0.90 43 76.0311 0.635 0.100 0.158 0.378 3.12 -1.84
397 203307.25+411000.4 20:33: 7.26 41:10: 0.44 0.49 5.09 3.14 105 0.89 16 89.1165 0.211 0.022 0.109 0.080 2.05 -2.18 $\dag $
398 203307.32+411214.6 20:33: 7.32 41:12:14.62 0.10 2.92 6.82 28 0.90 60 91.4377 0.737 0.157 0.327 0.253 2.34 -0.03
399 203307.34+411341.5 20:33: 7.35 41:13:41.60 0.12 1.61 3.72 16 0.89 21 82.9915 0.291 0.038 0.092 0.160 3.50 -0.57
400 203307.36+411800.0 20:33: 7.36 41:18: 0.04 0.13 3.13 4.78 31 0.90 32 93.0302 0.395 0.078 0.153 0.164 2.26 -1.44
401 203307.40+411151.3 20:33: 7.40 41:11:51.39 0.23 3.28 2.87 34 0.89 14 81.9142 0.195 -0.003 0.065 0.133 3.41 -1.00
402 203307.45+411226.4 20:33: 7.46 41:12:26.47 0.05 2.72 12.52 26 0.89 182 95.6938 2.134 0.291 0.711 1.132 2.93 -4.00 $\dag $
403 203307.47+411254.5 20:33: 7.47 41:12:54.51 0.14 2.29 1.09 23 0.90 3 46.7067 0.082 -0.004 0.066 0.019 2.28 -0.06
404 203307.50+412032.3 20:33: 7.50 41:20:32.32 0.12 5.60 13.60 143 0.90 216 88.3312 2.709 0.279 0.969 1.460 2.91 -4.00 $\dag $
405 203307.55+411821.2 20:33: 7.56 41:18:21.24 0.23 3.46 2.77 37 0.90 13 86.0949 0.178 0.058 0.085 0.035 1.89 -1.72
406 203307.57+411947.6 20:33: 7.57 41:19:47.61 0.12 4.86 9.41 94 0.91 110 96.7680 1.264 0.300 0.556 0.408 2.05 -0.11
407 203307.59+411300.7 20:33: 7.60 41:13: 0.80 0.06 2.18 9.21 19 0.89 103 95.6906 1.215 0.233 0.561 0.421 2.17 -2.85
408 203307.73+410828.5 20:33: 7.73 41:08:28.53 0.33 6.59 5.61 276 0.90 46 92.9517 0.562 0.071 0.261 0.230 2.45 -1.10
409 203307.83+411243.0 20:33: 7.84 41:12:43.10 0.18 2.44 3.50 25 0.90 19 93.1213 0.231 0.010 0.140 0.081 2.50 -1.84
410 203307.86+411216.3 20:33: 7.87 41:12:16.30 0.10 2.86 7.13 27 0.90 65 93.6615 0.779 0.058 0.343 0.378 2.80 -0.03
411 203307.91+411254.3 20:33: 7.91 41:12:54.36 0.19 2.26 2.67 20 0.89 12 94.4531 0.149 0.058 0.057 0.034 2.14 -0.26
412 203307.91+411606.9 20:33: 7.92 41:16: 6.99 0.15 1.37 2.34 16 0.90 10 74.3695 0.155 0.056 0.072 0.027 1.79 -0.05
413 203307.97+411257.7 20:33: 7.98 41:12:57.71 0.13 2.20 4.15 20 0.89 25 96.1084 0.299 0.069 0.162 0.069 2.20 -0.06
414 203307.98+411300.7 20:33: 7.98 41:13: 0.70 0.05 2.15 10.86 19 0.89 139 97.7511 1.604 0.320 0.699 0.585 2.31 -3.35
415 203307.99+411659.4 20:33: 8.00 41:16:59.49 0.13 2.13 4.13 20 0.89 25 78.6538 0.363 0.040 0.126 0.197 2.97 -1.57
416 203308.02+411801.5 20:33: 8.03 41:18: 1.59 0.14 3.12 3.18 31 0.90 16 88.5417 0.213 0.055 0.035 0.123 3.06 -0.11
417 203308.03+411436.9 20:33: 8.03 41:14:36.96 0.23 0.88 1.77 16 0.90 6 79.3197 0.094 0.026 0.069 -0.001 1.89 -0.01
418 203308.04+411642.9 20:33: 8.04 41:16:42.96 0.16 1.88 3.27 18 0.89 17 90.4891 0.216 0.035 0.109 0.072 2.23 -0.33
419 203308.05+412217.4 20:33: 8.06 41:22:17.48 0.53 7.32 4.90 351 0.90 36 91.2021 0.443 0.098 0.180 0.166 2.17 -0.14
420 203308.09+411109.6 20:33: 8.09 41:11: 9.60 0.16 3.93 5.18 52 0.90 37 86.5157 0.486 0.087 0.226 0.173 2.21 -3.65 $\dag $
421 203308.09+411526.9 20:33: 8.09 41:15:26.96 0.16 0.89 2.30 15 0.90 10 86.1608 0.132 0.022 0.074 0.036 2.20 -0.45
422 203308.21+410626.4 20:33: 8.21 41:06:26.46 0.50 8.60 7.12 954 0.90 76 96.2529 0.880 0.232 0.428 0.220 2.04 -0.36
423 203308.21+411304.0 20:33: 8.21 41:13: 4.08 0.11 2.08 4.25 19 0.89 26 94.4593 0.317 0.023 0.141 0.153 2.62 -0.11
424 203308.23+411823.1 20:33: 8.23 41:18:23.15 0.09 3.46 7.37 37 0.90 70 93.7715 0.836 0.205 0.374 0.257 2.12 -0.41
425 203308.25+411513.1 20:33: 8.25 41:15:13.14 0.25 0.77 1.44 15 0.90 5 91.4942 0.063 0.009 0.057 -0.003 1.82 -0.00
426 203308.29+411543.0 20:33: 8.29 41:15:43.02 0.15 1.02 2.87 16 0.90 14 92.3172 0.172 0.141 0.022 0.009 1.37 -0.00
427 203308.33+411421.1 20:33: 8.33 41:14:21.19 0.18 0.98 2.23 16 0.90 9 59.2361 0.179 0.035 0.072 0.072 2.33 -0.02
428 203308.50+411734.6 20:33: 8.50 41:17:34.66 0.23 2.66 2.11 25 0.89 9 75.5065 0.134 0.008 0.041 0.084 3.69 -0.29
429 203308.53+411328.1 20:33: 8.54 41:13:28.13 0.12 1.69 3.74 17 0.89 21 90.9571 0.267 0.010 0.109 0.147 2.93 -0.05
430 203308.56+411435.9 20:33: 8.56 41:14:35.91 0.12 0.80 3.65 16 0.90 20 52.4453 0.438 0.061 0.210 0.168 2.43 -3.90
431 203308.59+411915.1 20:33: 8.59 41:19:15.20 0.22 4.30 3.31 60 0.90 19 84.5181 0.256 0.010 0.101 0.145 3.09 -0.90
432 203308.63+411514.4 20:33: 8.64 41:15:14.43 0.05 0.71 9.69 15 0.90 113 97.3302 1.304 0.179 0.476 0.649 2.80 -4.00 $\dag $
433 203308.76+411318.5 20:33: 8.77 41:13:18.56 0.01 1.82 34.24 8 0.73 1240 97.5564 17.503 8.308 7.729 1.466 1.73 -1.24
434 203308.80+411257.4 20:33: 8.80 41:12:57.49 0.08 2.15 5.97 19 0.89 47 96.1712 0.557 0.127 0.185 0.244 2.40 -0.01
435 203308.84+411214.8 20:33: 8.84 41:12:14.86 0.13 2.84 3.92 27 0.90 23 96.2937 0.271 0.056 0.090 0.125 2.77 -0.07
436 203308.84+411317.1 20:33: 8.85 41:13:17.16 0.02 1.84 18.18 8 0.73 366 97.4213 5.173 2.876 2.001 0.295 1.63 -0.52
437 203308.89+411327.7 20:33: 8.90 41:13:27.80 0.21 1.67 2.25 17 0.89 9 82.2660 0.132 0.026 0.067 0.040 2.49 -0.70
438 203308.90+411243.5 20:33: 8.91 41:12:43.59 0.11 2.37 4.42 24 0.90 28 76.9734 0.411 0.056 0.185 0.170 2.68 -3.83
439 203308.91+412227.3 20:33: 8.91 41:22:27.38 0.26 7.47 11.04 400 0.90 148 91.9434 1.803 0.292 0.722 0.790 2.55 -4.00 $\dag $
440 203308.95+411705.7 20:33: 8.96 41:17: 5.71 0.13 2.17 3.70 19 0.89 21 26.9309 0.888 0.158 0.282 0.447 2.81 -4.00 $\dag $
441 203308.96+411101.9 20:33: 8.96 41:11: 1.92 0.44 4.03 2.04 56 0.90 8 79.0056 0.118 0.040 0.053 0.025 1.83 -0.01
442 203308.97+411537.5 20:33: 8.98 41:15:37.52 0.22 0.87 1.64 16 0.90 6 58.7273 0.118 0.013 0.032 0.072 3.16 -0.88
443 203309.01+411331.0 20:33: 9.02 41:13:31.08 0.11 1.61 4.26 17 0.89 26 96.3345 0.311 0.080 0.139 0.092 2.24 -0.41
444 203309.06+411227.8 20:33: 9.06 41:12:27.89 0.16 2.62 3.49 24 0.89 19 92.4648 0.235 0.034 0.094 0.106 2.75 -3.05
445 203309.12+411308.6 20:33: 9.13 41:13: 8.61 0.07 1.96 8.20 18 0.89 83 89.4777 1.048 0.124 0.449 0.475 2.49 -4.00
446 203309.15+411343.2 20:33: 9.16 41:13:43.20 0.08 1.41 6.46 18 0.90 54 94.2897 0.645 0.128 0.317 0.199 2.20 -0.02
447 203309.26+411302.1 20:33: 9.27 41:13: 2.10 0.08 2.05 6.26 19 0.89 51 93.6741 0.619 0.154 0.226 0.239 2.20 -4.00
448 203309.30+411618.6 20:33: 9.31 41:16:18.69 0.13 1.41 4.01 17 0.90 24 86.0320 0.315 0.074 0.166 0.075 2.14 -1.04
449 203309.32+411250.6 20:33: 9.32 41:12:50.62 0.11 2.24 5.60 20 0.89 42 96.7114 0.496 0.138 0.185 0.173 1.92 -0.09
450 203309.32+411428.9 20:33: 9.32 41:14:28.94 0.14 0.76 3.32 16 0.90 17 81.3142 0.242 0.012 0.122 0.108 2.78 -0.14
451 203309.38+411347.0 20:33: 9.38 41:13:47.06 0.19 1.34 1.90 17 0.90 7 76.9011 0.109 0.012 0.070 0.026 2.23 -0.00
452 203309.42+411320.3 20:33: 9.43 41:13:20.31 0.15 1.75 2.82 17 0.89 13 85.3284 0.180 0.011 0.077 0.091 3.28 -0.65
453 203309.45+411258.3 20:33: 9.46 41:12:58.33 0.15 2.10 3.20 19 0.89 16 86.6006 0.217 0.089 0.076 0.051 1.96 -0.19
454 203309.53+412109.9 20:33: 9.54 41:21: 9.94 0.32 6.17 4.96 204 0.91 37 88.8118 0.465 0.069 0.236 0.160 2.23 -0.08
455 203309.59+411308.0 20:33: 9.59 41:13: 8.08 0.08 1.94 5.98 18 0.89 47 93.0333 0.575 0.131 0.216 0.228 2.26 -0.48
456 203309.60+411300.4 20:33: 9.60 41:13: 0.48 0.06 2.06 9.38 19 0.89 106 93.8657 1.275 0.632 0.525 0.119 1.70 -0.00
457 203309.60+411429.9 20:33: 9.61 41:14:29.98 0.15 0.71 1.59 16 0.90 5 44.7561 0.143 0.023 0.048 0.072 2.94 -0.41
458 203309.63+412130.4 20:33: 9.64 41:21:30.50 0.40 6.51 4.64 239 0.90 34 92.7192 0.413 0.143 0.188 0.082 1.91 -0.59
459 203309.67+412214.3 20:33: 9.68 41:22:14.34 0.46 7.24 5.23 342 0.90 40 92.8417 0.488 0.057 0.236 0.195 2.47 -2.22
460 203309.73+411250.6 20:33: 9.73 41:12:50.69 0.15 2.22 3.76 20 0.89 21 96.2748 0.253 0.069 0.045 0.139 3.18 -0.76
461 203309.78+410902.2 20:33: 9.79 41:09: 2.20 0.23 5.99 6.39 79 0.71 54 96.4350 0.809 0.126 0.418 0.265 2.28 -0.73
462 203309.85+411247.8 20:33: 9.85 41:12:47.85 0.18 2.26 2.27 20 0.89 9 83.4344 0.131 0.012 0.039 0.080 3.01 -0.00
463 203309.92+411139.5 20:33: 9.92 41:11:39.56 0.33 3.38 1.70 37 0.89 6 75.5568 0.096 0.013 0.071 0.011 2.24 -1.12
464 203309.92+411756.2 20:33: 9.92 41:17:56.29 0.13 2.96 4.59 28 0.90 30 97.3271 0.353 0.052 0.144 0.157 2.61 -0.35
465 203309.93+411325.9 20:33: 9.93 41:13:25.97 0.18 1.64 2.70 17 0.89 12 95.9325 0.149 0.046 0.093 0.011 1.82 -0.35
466 203309.95+410856.9 20:33: 9.95 41:08:56.97 0.34 6.08 3.89 82 0.70 24 87.7062 0.390 0.058 0.154 0.178 2.68 -0.22
467 203310.02+412042.2 20:33:10.03 41:20:42.21 0.28 5.71 5.28 159 0.90 41 92.8197 0.500 0.064 0.113 0.324 3.42 -0.06
468 203310.03+411429.6 20:33:10.03 41:14:29.69 0.10 0.66 1.16 15 0.90 3 48.8049 0.084 -0.002 -0.002 0.089 4.12 -0.12
469 203310.04+411743.2 20:33:10.05 41:17:43.23 0.24 2.74 2.28 26 0.90 10 79.2537 0.142 0.036 0.025 0.081 4.23 -0.01
470 203310.05+411301.6 20:33:10.06 41:13: 1.66 0.13 2.03 1.39 18 0.89 4 76.1756 0.069 0.028 -0.002 0.043 2.81 -0.23
471 203310.07+411000.8 20:33:10.08 41:10: 0.84 0.13 5.01 11.10 102 0.90 147 96.9564 1.697 0.374 0.657 0.665 2.33 -0.64
472 203310.10+411414.4 20:33:10.10 41:14:14.42 0.10 0.87 4.04 13 0.88 24 96.2466 0.290 0.010 0.022 0.258 4.50 -2.88
473 203310.11+411337.1 20:33:10.11 41:13:37.16 0.16 1.45 2.96 15 0.88 14 84.9076 0.197 0.092 0.039 0.066 1.77 -0.54
474 203310.12+411239.7 20:33:10.13 41:12:39.75 0.18 2.38 2.96 22 0.89 14 76.7818 0.215 0.072 0.086 0.057 2.10 -0.56
475 203310.17+411545.3 20:33:10.17 41:15:45.32 0.07 0.84 6.88 16 0.90 61 97.5501 0.701 0.180 0.283 0.238 2.15 -1.18
476 203310.18+411339.4 20:33:10.18 41:13:39.40 0.09 1.41 5.53 15 0.88 41 91.4691 0.519 0.073 0.322 0.123 2.21 -0.34
477 203310.21+411322.4 20:33:10.22 41:13:22.44 0.23 1.68 2.42 17 0.89 10 93.5296 0.129 0.011 0.059 0.059 2.65 -0.17
478 203310.23+411533.1 20:33:10.24 41:15:33.15 0.10 0.66 4.71 15 0.90 32 62.8514 0.568 0.083 0.223 0.262 2.49 -3.40
479 203310.26+411413.3 20:33:10.26 41:14:13.35 0.07 0.87 6.63 13 0.88 57 94.5379 0.692 0.022 0.299 0.371 2.94 -4.00
480 203310.29+412205.1 20:33:10.29 41:22: 5.20 0.20 7.08 11.42 321 0.90 158 95.9230 1.840 0.434 0.865 0.541 2.08 -0.54
481 203310.45+410925.5 20:33:10.46 41:09:25.59 0.14 5.59 12.14 162 0.90 176 97.2360 2.010 0.286 0.777 0.947 2.68 -4.00 $\dag $
482 203310.56+411328.4 20:33:10.57 41:13:28.46 0.12 1.57 3.77 16 0.89 21 83.3559 0.293 0.080 0.134 0.080 1.98 -0.20
483 203310.57+412102.3 20:33:10.58 41:21: 2.30 0.32 6.03 5.85 192 0.90 48 97.1983 0.555 0.064 0.226 0.264 2.58 -3.08
484 203310.58+411538.7 20:33:10.58 41:15:38.74 0.07 0.71 5.85 15 0.90 46 92.0596 0.560 0.130 0.287 0.143 2.15 -0.04
485 203310.60+411323.8 20:33:10.61 41:13:23.88 0.13 1.64 4.17 17 0.89 25 91.2869 0.317 0.024 0.097 0.196 3.25 -0.31
486 203310.64+411748.8 20:33:10.64 41:17:48.87 0.23 2.82 2.41 27 0.90 11 81.4336 0.151 0.063 0.037 0.051 1.88 -0.98
487 203310.71+411339.6 20:33:10.72 41:13:39.69 0.20 1.38 2.27 17 0.90 9 88.9657 0.121 0.036 0.074 0.011 1.86 -0.35
488 203310.72+411507.9 20:33:10.72 41:15: 7.99 0.01 0.31 97.67 15 0.90 9736 97.7511 111.002 24.209 46.683 40.111 2.24 -0.14
489 203310.73+411502.2 20:33:10.74 41:15: 2.24 0.15 0.28 2.81 15 0.90 14 94.9713 0.168 -0.005 0.051 0.122 4.04 -0.26
490 203310.81+411256.4 20:33:10.82 41:12:56.42 0.11 2.09 5.24 19 0.89 37 88.8715 0.478 0.063 0.265 0.151 2.37 -0.26
491 203310.93+410953.3 20:33:10.94 41:09:53.36 0.35 5.13 3.23 108 0.89 18 95.7220 0.215 0.053 0.093 0.069 2.40 -0.04
492 203310.99+411241.8 20:33:10.99 41:12:41.88 0.12 2.33 4.63 22 0.89 30 92.0282 0.376 0.097 0.207 0.072 1.82 -2.18
493 203311.05+411032.0 20:33:11.06 41:10:32.06 0.46 4.48 1.61 84 0.91 6 41.1597 0.172 0.041 0.121 0.010 1.76 -0.56
494 203311.07+411318.0 20:33:11.07 41:13:18.05 0.20 1.72 1.99 17 0.89 7 87.8098 0.101 0.012 0.063 0.025 2.55 -0.08
495 203311.09+411445.4 20:33:11.10 41:14:45.46 0.06 0.33 8.06 15 0.90 81 96.5607 0.945 0.723 0.180 0.042 1.35 -0.31
496 203311.13+411640.6 20:33:11.13 41:16:40.66 0.17 1.68 2.05 17 0.89 8 51.0947 0.186 -0.003 0.039 0.150 3.32 -0.33
497 203311.22+410833.9 20:33:11.22 41:08:33.97 0.20 6.45 10.76 247 0.90 143 94.0856 1.697 0.161 0.762 0.775 2.56 -4.00 $\dag $
498 203311.29+411711.4 20:33:11.29 41:17:11.46 0.14 2.19 1.00 20 0.89 3 26.1520 0.137 0.032 0.033 0.072 5.29 -0.30
499 203311.32+411729.0 20:33:11.32 41:17:29.07 0.14 2.48 4.44 23 0.89 29 89.7761 0.362 0.033 0.208 0.121 2.21 -0.16
500 203311.44+411256.7 20:33:11.45 41:12:56.71 0.12 2.07 5.00 19 0.89 34 93.9285 0.416 0.035 0.202 0.179 2.58 -0.69
501 203311.47+411348.0 20:33:11.48 41:13:48.04 0.10 1.22 4.80 17 0.90 32 88.9971 0.409 0.036 0.186 0.186 2.36 -0.64
502 203311.51+411238.8 20:33:11.51 41:12:38.81 0.10 2.37 6.25 22 0.89 51 91.8617 0.633 0.109 0.268 0.256 2.52 -0.22
503 203311.52+410718.9 20:33:11.52 41:07:18.92 0.43 7.70 6.21 457 0.89 58 95.3074 0.689 0.166 0.319 0.203 1.99 -0.23
504 203311.59+411243.0 20:33:11.59 41:12:43.01 0.15 2.30 2.82 24 0.90 13 94.0636 0.161 0.011 0.046 0.105 2.97 -0.05
505 203311.60+411615.8 20:33:11.60 41:16:15.89 0.24 1.26 1.51 17 0.90 5 62.5122 0.097 0.014 0.032 0.050 3.19 -0.08
506 203311.63+411646.4 20:33:11.63 41:16:46.42 0.11 1.77 3.83 18 0.89 22 93.7809 0.269 0.070 0.142 0.058 2.07 -0.73
507 203311.79+411149.9 20:33:11.79 41:11:49.95 0.09 3.18 9.31 33 0.89 105 96.3157 1.231 0.183 0.517 0.530 2.50 -4.00 $\dag $
508 203311.87+411245.3 20:33:11.87 41:12:45.32 0.14 2.26 3.97 21 0.89 23 90.8566 0.293 0.098 0.110 0.085 1.93 -0.19
509 203311.89+411213.9 20:33:11.89 41:12:13.93 0.14 2.78 4.24 27 0.89 26 96.8308 0.311 0.066 0.169 0.077 2.14 -0.09
510 203312.04+412023.1 20:33:12.04 41:20:23.18 0.18 5.37 8.03 132 0.91 85 96.5984 0.972 0.192 0.438 0.342 2.28 -0.04
511 203312.05+411649.2 20:33:12.06 41:16:49.26 0.09 1.81 5.42 18 0.89 40 95.2697 0.477 0.139 0.163 0.175 2.01 -1.60
512 203312.20+411014.2 20:33:12.21 41:10:14.27 0.43 4.77 1.88 87 0.89 8 77.0017 0.117 0.037 0.065 0.015 1.88 -0.20
513 203312.25+411104.6 20:33:12.25 41:11: 4.67 0.21 3.93 4.22 53 0.90 26 95.1755 0.314 0.008 0.055 0.251 4.07 -0.01
514 203312.50+411502.0 20:33:12.50 41:15: 2.02 0.16 0.06 3.43 15 0.90 19 91.9811 0.231 0.093 0.094 0.044 1.83 -0.04
515 203312.50+411150.1 20:33:12.51 41:11:50.14 0.15 3.18 4.53 33 0.89 30 91.4785 0.368 0.022 0.240 0.106 2.12 -0.38
516 203312.57+411453.3 20:33:12.58 41:14:53.38 0.21 0.14 2.04 15 0.90 8 70.1731 0.133 0.012 0.076 0.045 2.46 -0.13
517 203312.60+411539.4 20:33:12.61 41:15:39.41 0.16 0.65 2.82 15 0.90 14 89.7478 0.174 0.096 0.045 0.033 1.69 -0.01
518 203312.62+411635.1 20:33:12.63 41:16:35.12 0.13 1.58 3.49 18 0.90 19 87.2005 0.247 0.023 0.138 0.087 2.53 -0.47
519 203312.66+411913.6 20:33:12.66 41:19:13.62 0.27 4.22 3.32 59 0.90 20 86.1137 0.271 0.126 0.112 0.033 1.91 -0.56
520 203312.73+411132.6 20:33:12.74 41:11:32.67 0.11 3.47 7.91 39 0.89 78 94.2395 0.942 0.213 0.425 0.305 2.21 -0.09
521 203312.74+411439.3 20:33:12.74 41:14:39.37 0.22 0.37 2.12 15 0.90 8 79.8725 0.122 -0.001 0.096 0.027 2.53 -0.00
522 203312.86+412115.8 20:33:12.87 41:21:15.87 0.52 6.25 2.08 215 0.90 10 87.5114 0.139 0.009 0.066 0.063 2.49 -0.28
523 203312.87+411154.4 20:33:12.88 41:11:54.50 0.13 3.11 6.12 31 0.90 50 90.5802 0.616 0.096 0.266 0.254 2.33 -1.94
524 203312.97+411257.5 20:33:12.98 41:12:57.56 0.27 2.06 1.91 19 0.89 7 52.2820 0.162 -0.003 0.104 0.061 2.30 -0.12
525 203313.03+411539.0 20:33:13.04 41:15:39.03 0.09 0.66 4.84 15 0.90 33 91.0890 0.408 0.095 0.192 0.120 2.24 -0.93
526 203313.04+411311.5 20:33:13.04 41:13:11.54 0.14 1.83 3.84 18 0.89 22 85.5232 0.296 0.025 0.182 0.090 2.23 -0.02
527 203313.08+411030.1 20:33:13.08 41:10:30.11 0.25 4.51 3.96 83 0.91 24 96.4287 0.280 0.064 0.110 0.105 2.20 -0.54
528 203313.16+411338.6 20:33:13.16 41:13:38.60 0.27 1.38 1.91 18 0.90 7 78.2675 0.108 0.055 0.055 -0.002 1.54 -0.00
529 203313.23+411319.1 20:33:13.23 41:13:19.13 0.12 1.70 4.14 17 0.89 25 73.8952 0.389 0.074 0.180 0.135 2.12 -2.79
530 203313.24+411328.4 20:33:13.25 41:13:28.46 0.05 1.55 10.76 19 0.90 137 93.8783 1.628 0.922 0.625 0.081 1.63 -0.09
531 203313.25+411727.2 20:33:13.26 41:17:27.24 0.18 2.45 2.09 23 0.89 8 89.8578 0.112 0.008 0.057 0.046 2.50 -0.02
532 203313.38+411110.8 20:33:13.39 41:11:10.89 0.31 3.84 1.91 49 0.89 7 48.6887 0.181 0.016 0.131 0.034 1.92 -2.03
533 203313.40+411233.6 20:33:13.40 41:12:33.66 0.22 2.46 2.35 23 0.89 10 89.1008 0.131 0.048 0.023 0.061 1.73 -0.23
534 203313.54+411948.8 20:33:13.55 41:19:48.83 0.28 4.81 3.61 87 0.89 23 93.9788 0.274 0.063 0.153 0.058 2.12 -0.38
535 203313.60+412004.8 20:33:13.61 41:20: 4.88 0.27 5.08 4.18 101 0.90 29 97.1606 0.335 0.068 0.179 0.088 2.26 -2.49
536 203313.62+411749.2 20:33:13.62 41:17:49.27 0.15 2.82 4.33 28 0.90 28 97.2517 0.324 0.096 0.152 0.076 1.98 -0.58
537 203313.67+411305.4 20:33:13.67 41:13: 5.46 0.06 1.94 9.60 18 0.89 111 97.3428 1.286 0.736 0.483 0.067 1.63 -0.07
538 203313.78+411028.0 20:33:13.78 41:10:28.06 0.40 4.55 1.79 85 0.91 7 92.2575 0.089 0.020 0.031 0.037 2.26 -0.45
539 203313.85+411715.1 20:33:13.86 41:17:15.14 0.09 2.26 6.14 21 0.89 50 92.1853 0.613 0.022 0.289 0.302 2.65 -2.98
540 203313.87+411259.0 20:33:13.87 41:12:59.04 0.23 2.05 2.38 19 0.89 10 84.0563 0.140 0.025 0.052 0.064 2.05 -0.11
541 203313.88+411345.4 20:33:13.89 41:13:45.44 0.21 1.29 2.07 17 0.90 8 88.2904 0.108 -0.002 0.061 0.048 2.21 -0.26 $\dag $
542 203314.05+411626.9 20:33:14.06 41:16:26.94 0.16 1.48 1.35 18 0.90 4 59.4529 0.086 0.016 -0.002 0.072 4.81 -0.76
543 203314.09+410925.6 20:33:14.10 41:09:25.70 0.40 5.59 2.59 158 0.90 13 96.4036 0.160 0.045 0.105 0.010 1.99 -2.05
544 203314.11+412021.6 20:33:14.11 41:20:21.69 0.04 5.36 41.78 136 0.91 1834 97.6537 20.735 8.399 10.375 1.961 1.77 -0.16
545 203314.13+411446.6 20:33:14.14 41:14:46.61 0.16 0.43 1.92 15 0.90 7 84.9955 0.100 0.012 0.050 0.038 2.36 -0.02
546 203314.15+411450.2 20:33:14.16 41:14:50.28 0.17 0.40 2.66 15 0.90 12 93.2689 0.150 0.058 0.021 0.070 2.74 -1.34
547 203314.16+412054.9 20:33:14.17 41:20:55.00 0.29 5.92 5.37 188 0.91 42 95.6278 0.495 0.032 0.284 0.178 2.36 -2.14
548 203314.22+410852.7 20:33:14.22 41:08:52.80 0.50 6.14 2.92 209 0.91 17 92.1758 0.206 0.010 0.119 0.077 2.40 -0.25
549 203314.24+411227.8 20:33:14.25 41:12:27.87 0.13 2.58 4.22 24 0.89 26 86.5754 0.343 0.076 0.128 0.140 2.28 -0.12
550 203314.25+411236.7 20:33:14.25 41:12:36.79 0.22 2.43 1.53 22 0.89 5 53.1175 0.117 0.018 0.061 0.038 1.86 -0.14
551 203314.31+411221.2 20:33:14.32 41:12:21.28 0.18 2.69 3.32 15 0.80 17 83.4219 0.266 0.014 0.134 0.118 2.71 -0.04
552 203314.32+411932.8 20:33:14.33 41:19:32.89 0.17 4.55 6.48 75 0.89 58 91.1016 0.719 0.294 0.382 0.042 1.80 -0.15
553 203314.38+411223.5 20:33:14.38 41:12:23.51 0.16 2.65 1.77 14 0.80 6 69.2905 0.121 0.071 0.034 0.016 1.64 -0.03
554 203314.39+411901.0 20:33:14.39 41:19: 1.10 0.27 4.03 3.40 55 0.91 21 89.8232 0.263 0.061 0.153 0.049 1.91 -0.32
555 203314.42+411923.5 20:33:14.42 41:19:23.52 0.07 4.40 17.41 68 0.89 343 97.1418 3.970 0.713 1.759 1.498 2.28 -4.00 $\dag $
556 203314.44+410633.3 20:33:14.44 41:06:33.34 0.50 8.47 6.38 678 0.87 60 95.6247 0.718 0.197 0.280 0.241 2.17 -4.00 $\dag $
557 203314.47+411856.2 20:33:14.48 41:18:56.28 0.10 3.95 10.23 53 0.91 130 97.1669 1.478 0.371 0.633 0.474 2.12 -0.20
558 203314.50+411253.9 20:33:14.50 41:12:53.93 0.14 2.16 3.17 19 0.89 16 82.6021 0.224 0.025 0.120 0.079 2.55 -0.15
559 203314.58+411837.1 20:33:14.58 41:18:37.12 0.09 3.63 9.26 44 0.90 108 97.4307 1.241 0.517 0.436 0.289 1.95 -0.93
560 203314.69+410944.1 20:33:14.69 41:09:44.13 0.51 5.30 2.55 116 0.89 12 81.4524 0.175 0.047 0.114 0.014 1.96 -0.06
561 203314.76+412012.5 20:33:14.77 41:20:12.59 0.34 5.22 4.08 112 0.89 27 88.9532 0.342 0.094 0.135 0.114 2.34 -0.07
562 203314.76+411841.4 20:33:14.77 41:18:41.47 0.06 3.71 15.91 47 0.90 290 96.9973 3.331 1.904 1.284 0.143 1.64 -0.04
563 203314.81+411421.0 20:33:14.82 41:14:21.06 0.20 0.82 1.40 16 0.90 4 89.1950 0.059 -0.001 0.024 0.036 3.76 -2.17
564 203314.84+410831.4 20:33:14.85 41:08:31.41 0.52 6.51 3.80 245 0.89 25 94.6886 0.303 0.089 0.134 0.080 2.07 -0.00
565 203314.87+410957.6 20:33:14.88 41:09:57.67 0.62 5.07 1.87 102 0.89 7 79.6935 0.112 0.050 0.049 0.014 1.86 -0.33
566 203314.92+411719.4 20:33:14.93 41:17:19.50 0.19 2.37 2.21 22 0.89 9 72.9215 0.145 0.028 0.074 0.044 2.49 -0.07
567 203314.97+411556.8 20:33:14.98 41:15:56.84 0.11 1.07 3.86 16 0.90 22 89.9237 0.281 0.048 0.147 0.085 2.17 -0.11
568 203315.07+411850.3 20:33:15.07 41:18:50.33 0.01 3.86 113.60 51 0.90 13138 97.7700 148.642 37.373 63.566 47.702 2.17 -0.44
569 203315.11+411310.5 20:33:15.12 41:13:10.56 0.11 1.91 4.23 18 0.89 26 72.7425 0.410 -0.002 0.106 0.306 4.40 -3.94 $\dag $
570 203315.12+411903.3 20:33:15.12 41:19: 3.36 0.22 4.08 4.77 57 0.90 36 88.9029 0.449 0.089 0.287 0.073 2.10 -0.07
571 203315.18+411530.8 20:33:15.18 41:15:30.88 0.09 0.75 4.96 16 0.90 34 93.5013 0.413 0.106 0.141 0.165 2.07 -0.67
572 203315.21+411327.5 20:33:15.22 41:13:27.55 0.12 1.65 4.03 19 0.90 24 90.1216 0.302 0.047 0.121 0.133 2.50 -1.56
573 203315.28+411522.6 20:33:15.29 41:15:22.69 0.16 0.68 2.66 16 0.90 12 67.2143 0.208 0.031 0.063 0.113 3.42 -0.77
574 203315.31+411855.6 20:33:15.31 41:18:55.66 0.17 3.96 2.76 9 0.48 13 90.8660 0.308 0.134 0.155 0.018 1.73 -0.03
575 203315.33+411029.9 20:33:15.34 41:10:30.00 0.36 4.55 3.56 84 0.91 20 86.3304 0.263 0.060 0.136 0.067 2.20 -0.08
576 203315.38+411751.5 20:33:15.38 41:17:51.51 0.26 2.91 2.00 29 0.90 8 57.4521 0.165 0.029 0.123 0.013 1.93 -0.44
577 203315.39+411338.4 20:33:15.40 41:13:38.45 0.15 1.49 3.62 18 0.90 20 84.1537 0.271 0.077 0.077 0.117 2.55 -0.00
578 203315.40+411329.6 20:33:15.40 41:13:29.61 0.20 1.63 2.79 19 0.90 13 89.1448 0.168 0.048 0.073 0.047 1.80 -0.01
579 203315.43+411816.0 20:33:15.44 41:18:16.05 0.09 3.31 8.63 36 0.89 94 94.2834 1.124 0.250 0.456 0.418 2.24 -2.96
580 203315.45+411856.7 20:33:15.45 41:18:56.77 0.12 3.98 3.07 9 0.47 16 88.7553 0.387 0.162 0.158 0.067 1.76 -0.67
581 203315.55+412133.3 20:33:15.56 41:21:33.36 0.37 6.57 5.86 267 0.90 50 94.2458 0.591 0.511 0.087 -0.007 1.28 -1.01
582 203315.63+411851.4 20:33:15.64 41:18:51.48 0.17 3.90 7.44 52 0.91 75 95.5241 0.871 0.253 0.430 0.188 2.12 -1.49
583 203315.68+411319.4 20:33:15.68 41:13:19.49 0.26 1.81 1.72 20 0.90 6 74.0617 0.097 0.028 0.013 0.057 2.85 -0.00
584 203315.70+412017.0 20:33:15.70 41:20:17.05 0.21 5.31 6.26 108 0.87 53 94.1264 0.654 0.351 0.268 0.035 1.60 -0.04
585 203315.76+410633.1 20:33:15.77 41:06:33.19 0.71 8.48 4.16 661 0.87 31 90.7498 0.399 0.122 0.093 0.184 2.78 -0.41
586 203315.80+411510.2 20:33:15.81 41:15:10.30 0.08 0.69 5.41 16 0.90 40 94.3588 0.478 0.093 0.245 0.140 2.17 -0.03
587 203315.82+411225.8 20:33:15.83 41:12:25.81 0.26 2.67 2.04 25 0.89 8 70.0318 0.135 0.046 0.046 0.044 1.92 -1.19
588 203315.84+412115.0 20:33:15.84 41:21:15.04 0.42 6.28 3.94 229 0.90 26 93.8186 0.318 0.078 0.166 0.074 1.95 -4.00 $\dag $
589 203315.89+411623.3 20:33:15.89 41:16:23.37 0.21 1.54 1.52 18 0.90 5 51.9051 0.117 -0.004 0.081 0.039 2.18 -0.09
590 203315.90+412025.3 20:33:15.91 41:20:25.38 0.25 5.46 6.55 148 0.91 58 94.5002 0.689 0.114 0.357 0.218 2.36 -0.26
591 203316.17+411245.3 20:33:16.18 41:12:45.39 0.29 2.37 1.90 21 0.89 7 38.6877 0.218 0.054 0.170 -0.006 1.96 -1.03
592 203316.21+411721.8 20:33:16.22 41:17:21.83 0.14 2.47 3.50 24 0.89 19 95.0624 0.229 0.045 0.080 0.104 2.59 -0.07
593 203316.21+411440.3 20:33:16.22 41:14:40.35 0.06 0.82 7.14 16 0.90 65 96.4382 0.757 0.183 0.287 0.288 2.36 -2.75
594 203316.22+412015.5 20:33:16.22 41:20:15.58 0.22 5.30 7.55 109 0.88 74 85.6488 0.995 0.159 0.559 0.277 2.15 -0.87
595 203316.29+412143.7 20:33:16.30 41:21:43.78 0.32 6.76 6.52 295 0.90 60 94.0227 0.714 0.124 0.425 0.165 2.20 -0.19
596 203316.34+411858.9 20:33:16.34 41:18:58.96 0.05 4.05 17.05 27 0.77 327 93.4511 4.545 0.529 1.927 2.089 2.55 -4.00 $\dag $
597 203316.36+411902.1 20:33:16.36 41:19: 2.14 0.12 4.10 7.08 30 0.79 66 96.7805 0.869 0.448 0.390 0.032 1.61 -4.00
598 203316.44+411659.2 20:33:16.44 41:16:59.30 0.23 2.13 2.08 20 0.89 8 56.2553 0.171 0.017 0.037 0.117 3.13 -0.28
599 203316.45+410924.9 20:33:16.46 41:09:24.92 0.25 5.65 6.00 158 0.90 50 95.7880 0.584 0.046 0.233 0.305 2.85 -0.05
600 203316.50+411653.9 20:33:16.50 41:16:53.97 0.03 2.05 19.72 19 0.89 428 89.9112 5.343 2.467 1.906 0.971 1.76 -4.00 $\dag $
601 203316.52+410703.7 20:33:16.52 41:07: 3.80 0.45 7.99 5.56 502 0.89 48 92.2732 0.595 0.191 0.247 0.158 1.89 -0.00
602 203316.57+411703.9 20:33:16.57 41:17: 3.98 0.21 2.21 2.38 21 0.89 10 66.0050 0.179 0.083 0.082 0.015 1.76 -0.08
603 203316.60+411258.8 20:33:16.60 41:12:58.82 0.09 2.19 6.38 20 0.89 53 95.0750 0.632 0.164 0.282 0.186 2.08 -4.00
604 203316.64+411542.2 20:33:16.65 41:15:42.23 0.14 1.08 2.64 16 0.90 12 92.7349 0.150 0.022 0.033 0.094 3.20 -0.60
605 203316.66+411404.4 20:33:16.67 41:14: 4.49 0.16 1.25 2.28 17 0.90 9 85.0426 0.128 0.052 0.051 0.025 1.86 -0.77
606 203316.72+411833.1 20:33:16.73 41:18:33.12 0.12 3.64 6.37 45 0.90 55 96.2120 0.639 0.129 0.285 0.225 2.26 -2.75
607 203316.73+411129.3 20:33:16.74 41:11:29.36 0.39 3.62 2.10 42 0.89 8 86.6382 0.116 0.011 0.034 0.072 3.67 -0.01
608 203316.83+411056.8 20:33:16.84 41:10:56.88 0.18 4.15 5.09 59 0.90 36 96.7931 0.424 0.077 0.203 0.144 2.36 -0.92
609 203317.08+411659.7 20:33:17.09 41:16:59.74 0.19 2.18 2.64 20 0.89 12 87.9606 0.159 0.010 0.100 0.048 2.36 -0.60
610 203317.12+411506.6 20:33:17.12 41:15: 6.62 0.12 0.93 3.84 16 0.90 22 84.5809 0.298 0.051 0.130 0.117 2.14 -0.02
611 203317.31+411342.0 20:33:17.31 41:13:42.07 0.15 1.62 1.85 18 0.90 7 80.1081 0.102 0.024 0.067 0.010 1.95 -0.15
612 203317.38+411653.9 20:33:17.39 41:16:53.97 0.06 2.12 9.91 20 0.89 118 92.7475 1.431 0.251 0.735 0.444 2.17 -4.00 $\dag $
613 203317.40+411453.8 20:33:17.40 41:14:53.88 0.14 0.98 3.51 16 0.90 19 84.2448 0.259 0.038 0.170 0.051 2.34 -0.17
614 203317.40+411238.4 20:33:17.41 41:12:38.44 0.18 2.56 3.16 23 0.89 16 93.0302 0.199 0.058 0.107 0.034 1.96 -0.27
615 203317.47+411709.0 20:33:17.48 41:17: 9.06 0.06 2.36 10.66 22 0.89 135 97.2046 1.564 0.760 0.702 0.101 1.70 -1.85
616 203317.51+410724.3 20:33:17.51 41:07:24.38 0.45 7.67 6.06 464 0.90 55 80.4253 0.759 0.150 0.236 0.372 2.75 -3.75 $\dag $
617 203317.53+411800.7 20:33:17.53 41:18: 0.75 0.20 3.16 3.22 33 0.90 17 90.7121 0.216 0.116 0.042 0.057 1.64 -0.32
618 203317.55+412041.1 20:33:17.56 41:20:41.17 0.35 5.76 5.29 179 0.91 41 95.3263 0.484 0.066 0.181 0.237 2.66 -4.00 $\dag $
619 203317.63+412022.0 20:33:17.64 41:20:22.05 0.30 5.45 3.78 149 0.91 24 96.6329 0.280 0.044 0.149 0.087 2.04 -0.14
620 203317.74+411304.7 20:33:17.75 41:13: 4.72 0.08 2.19 7.33 20 0.89 68 95.9953 0.801 0.232 0.291 0.278 2.21 -0.04
621 203317.76+411753.0 20:33:17.77 41:17:53.05 0.22 3.06 2.99 31 0.90 15 78.3429 0.221 0.021 0.106 0.094 2.37 -0.11
622 203317.83+411323.3 20:33:17.83 41:13:23.38 0.05 1.93 10.84 21 0.90 139 95.5053 1.623 0.382 0.697 0.544 2.14 -0.90
623 203317.95+411917.9 20:33:17.95 41:19:17.90 0.19 4.42 4.71 71 0.89 33 95.0090 0.397 0.128 0.147 0.122 2.08 -1.25
624 203317.97+410749.6 20:33:17.97 41:07:49.62 0.53 7.27 3.82 353 0.89 25 93.5233 0.304 0.062 0.163 0.079 2.15 -0.66
625 203317.99+411830.9 20:33:18.00 41:18:30.92 0.05 3.67 19.72 46 0.90 430 97.3459 4.931 2.605 2.115 0.211 1.67 -0.46
626 203318.06+412136.3 20:33:18.06 41:21:36.40 0.25 6.69 9.79 288 0.90 120 95.3231 1.407 0.751 0.499 0.156 1.67 -0.30
627 203318.06+412136.4 20:33:18.06 41:21:36.40 0.25 6.69 9.78 288 0.90 120 95.3231 1.405 0.751 0.499 0.156 1.67 -0.30
628 203318.06+411714.4 20:33:18.06 41:17:14.50 0.22 2.49 2.33 24 0.89 10 87.6182 0.132 0.049 0.060 0.022 2.01 -0.03
629 203318.08+411731.1 20:33:18.08 41:17:31.20 0.11 2.74 5.67 27 0.90 44 90.6744 0.543 0.145 0.291 0.107 2.04 -1.26
630 203318.08+411731.2 20:33:18.08 41:17:31.20 0.09 2.74 3.46 4 0.39 18 75.1013 0.644 0.238 0.203 0.203 2.07 -0.29
631 203318.14+411101.1 20:33:18.15 41:11: 1.10 0.46 4.15 2.24 57 0.90 9 80.0893 0.138 0.038 0.093 0.007 2.01 -1.46
632 203318.17+410920.5 20:33:18.18 41:09:20.55 0.43 5.78 3.95 167 0.90 25 95.9764 0.300 0.056 0.125 0.119 2.08 -0.52
633 203318.28+411739.0 20:33:18.28 41:17:39.08 0.06 2.87 11.05 29 0.90 144 94.4028 1.709 0.349 0.809 0.551 2.26 -1.49
634 203318.30+412209.5 20:33:18.30 41:22: 9.55 0.53 7.24 4.66 386 0.90 36 93.5202 0.434 0.059 0.179 0.196 2.26 -2.01
635 203318.42+411240.4 20:33:18.43 41:12:40.43 0.12 2.61 4.84 23 0.89 33 90.9226 0.411 0.084 0.146 0.181 2.26 -1.47 $\dag $
636 203318.46+411452.9 20:33:18.46 41:14:52.92 0.13 1.18 3.29 17 0.90 17 69.7554 0.281 0.094 0.109 0.077 1.92 -0.25
637 203318.46+411119.2 20:33:18.46 41:11:19.22 0.17 3.87 4.62 48 0.89 31 76.4991 0.455 0.069 0.200 0.185 2.72 -1.06
638 203318.52+411534.9 20:33:18.52 41:15:34.92 0.14 1.31 3.52 17 0.90 19 83.9653 0.260 0.011 0.118 0.131 2.81 -0.03
639 203318.66+411912.0 20:33:18.67 41:19:12.04 0.36 4.36 2.48 68 0.89 12 85.6520 0.162 0.067 0.073 0.021 1.83 -0.00
640 203318.66+411723.6 20:33:18.67 41:17:23.65 0.21 2.67 2.59 26 0.89 12 91.6858 0.149 0.021 0.057 0.070 2.49 -0.00
641 203318.74+411704.1 20:33:18.74 41:17: 4.16 0.25 2.39 1.52 22 0.89 5 81.5624 0.075 0.011 0.039 0.025 2.27 -0.02
642 203318.77+412130.5 20:33:18.78 41:21:30.52 0.41 6.61 2.78 71 0.60 14 82.7026 0.286 0.071 0.188 0.026 2.01 -0.00
643 203318.87+411436.8 20:33:18.87 41:14:36.82 0.06 1.31 8.71 17 0.90 93 96.0989 1.086 0.126 0.404 0.555 2.81 -2.77 $\dag $
644 203318.91+411319.2 20:33:18.91 41:13:19.24 0.22 2.11 1.11 20 0.89 3 44.1750 0.090 0.047 0.048 -0.005 1.19 -0.01
645 203318.94+411332.6 20:33:18.95 41:13:32.66 0.34 1.94 1.90 21 0.90 7 60.0120 0.139 0.089 0.035 0.015 1.42 -0.19
646 203319.01+412134.8 20:33:19.01 41:21:34.81 0.32 6.69 4.26 73 0.59 27 86.6728 0.534 0.148 0.243 0.144 2.05 -0.16
647 203318.99+410759.1 20:33:18.99 41:07:59.13 0.62 7.14 3.01 332 0.89 18 93.4165 0.221 0.086 0.106 0.030 1.80 -0.86
648 203319.06+411354.1 20:33:19.06 41:13:54.12 0.26 1.70 1.58 19 0.90 5 66.2846 0.095 0.015 0.049 0.031 1.92 -0.02
649 203319.11+410658.4 20:33:19.12 41:06:58.47 0.51 8.14 4.97 566 0.90 41 92.4334 0.497 0.118 0.219 0.159 2.62 -0.21
650 203319.13+411659.2 20:33:19.13 41:16:59.27 0.06 2.36 9.95 22 0.89 119 97.0098 1.380 0.934 0.379 0.067 1.41 -0.62
651 203319.16+411906.7 20:33:19.16 41:19: 6.78 0.33 4.30 2.84 66 0.89 15 85.9535 0.201 0.025 0.122 0.055 2.21 -0.71
652 203319.21+411756.4 20:33:19.22 41:17:56.44 0.06 3.21 13.58 34 0.90 212 96.7177 2.447 0.213 1.052 1.181 2.68 -4.00 $\dag $
653 203319.29+411702.1 20:33:19.30 41:17: 2.11 0.24 2.42 2.20 22 0.89 9 83.3622 0.127 0.024 0.091 0.011 1.94 -0.19
654 203319.42+411741.4 20:33:19.42 41:17:41.50 0.26 3.00 2.17 30 0.90 9 91.6701 0.117 0.006 0.054 0.056 2.72 -0.07
655 203319.44+411349.8 20:33:19.45 41:13:49.84 0.19 1.80 1.35 20 0.90 4 86.8801 0.059 0.037 0.011 0.011 1.69 -0.08
656 203319.46+412008.5 20:33:19.46 41:20: 8.55 0.28 5.31 4.18 122 0.89 27 91.7298 0.335 0.026 0.122 0.188 2.90 -0.65
657 203319.48+411517.6 20:33:19.48 41:15:17.65 0.25 1.39 1.54 18 0.90 5 53.7174 0.115 0.018 0.038 0.059 2.84 -0.03
658 203319.48+411225.7 20:33:19.48 41:12:25.74 0.20 2.92 2.88 27 0.89 14 83.3873 0.192 0.105 0.051 0.036 1.48 -0.04
659 203319.48+410737.0 20:33:19.48 41:07:37.06 0.37 7.52 6.97 396 0.90 67 96.4476 0.774 0.336 0.298 0.140 1.98 -0.04
660 203319.52+412127.0 20:33:19.53 41:21:27.08 0.63 6.58 3.51 246 0.88 21 88.8181 0.273 0.024 0.151 0.099 2.50 -0.20
661 203319.58+411906.4 20:33:19.58 41:19: 6.45 0.24 4.32 4.52 66 0.89 31 85.1745 0.414 0.078 0.244 0.093 2.05 -0.83
662 203319.59+411803.9 20:33:19.60 41:18: 3.92 0.21 3.35 3.39 37 0.89 19 86.5000 0.248 0.018 0.145 0.085 2.28 -1.41
663 203319.59+411042.3 20:33:19.60 41:10:42.32 0.37 4.52 3.17 70 0.90 17 80.7489 0.238 0.090 0.076 0.072 1.80 -0.14
664 203319.73+412103.1 20:33:19.74 41:21: 3.17 0.48 6.20 4.67 225 0.90 33 93.1998 0.396 0.045 0.201 0.151 2.31 -4.00 $\dag $
665 203319.88+411124.6 20:33:19.89 41:11:24.61 0.26 3.88 2.66 47 0.89 12 91.5508 0.157 0.044 0.020 0.093 3.34 -0.81
666 203319.91+410716.8 20:33:19.91 41:07:16.86 0.66 7.86 4.52 490 0.90 34 94.8740 0.401 0.098 0.199 0.104 2.18 -0.10
667 203320.02+412011.6 20:33:20.02 41:20:11.68 0.29 5.39 4.83 127 0.89 35 93.0647 0.432 0.080 0.198 0.154 2.10 -0.33
668 203320.03+411831.6 20:33:20.03 41:18:31.68 0.18 3.81 4.80 50 0.90 34 95.7880 0.398 0.148 0.150 0.100 1.83 -0.32
669 203320.09+411632.8 20:33:20.10 41:16:32.85 0.28 2.13 1.70 20 0.89 6 37.5978 0.193 -0.005 0.025 0.173 4.83 -0.42
670 203320.12+411943.2 20:33:20.13 41:19:43.22 0.16 4.94 7.98 100 0.90 82 96.0110 0.958 0.173 0.467 0.318 2.30 -0.41
671 203320.19+411716.4 20:33:20.19 41:17:16.44 0.11 2.71 5.86 26 0.89 46 96.5889 0.537 0.148 0.240 0.149 2.05 -1.38
672 203320.23+411432.3 20:33:20.24 41:14:32.32 0.06 1.58 8.35 19 0.90 86 96.3753 1.000 0.184 0.391 0.425 2.62 -0.09
673 203320.31+411647.1 20:33:20.31 41:16:47.10 0.22 2.34 1.89 21 0.89 7 54.8199 0.153 0.038 0.078 0.037 2.22 -1.20
674 203320.39+411840.8 20:33:20.40 41:18:40.89 0.29 3.98 3.36 55 0.90 19 85.3818 0.246 0.172 0.040 0.034 1.37 -0.19
675 203320.40+411929.0 20:33:20.41 41:19:29.10 0.19 4.73 6.94 87 0.89 64 91.3246 0.795 0.081 0.007 0.707 4.15 -0.07
676 203320.47+412033.0 20:33:20.47 41:20:33.04 0.13 5.75 12.60 179 0.91 186 96.7114 2.129 1.275 0.696 0.158 1.51 -4.00 $\dag $
677 203320.49+412144.8 20:33:20.49 41:21:44.82 0.64 6.91 2.25 322 0.90 10 83.5947 0.141 0.033 0.084 0.023 1.79 -0.12
678 203320.55+411815.6 20:33:20.56 41:18:15.69 0.31 3.61 2.80 43 0.89 14 94.4562 0.173 0.038 0.036 0.099 3.37 -0.15
679 203320.58+411451.3 20:33:20.58 41:14:51.36 0.22 1.58 2.52 18 0.90 11 63.3163 0.203 0.033 0.050 0.120 3.86 -0.36
680 203320.58+411704.4 20:33:20.59 41:17: 4.49 0.24 2.59 2.36 24 0.89 10 89.6630 0.131 0.035 0.085 0.010 1.96 -0.00
681 203320.58+411653.6 20:33:20.59 41:16:53.65 0.17 2.45 3.04 22 0.89 15 87.4266 0.199 0.024 0.075 0.100 3.76 -0.01
682 203320.68+411418.4 20:33:20.68 41:14:18.48 0.18 1.74 2.67 20 0.90 12 82.3728 0.170 0.066 0.093 0.011 1.92 -0.40
683 203320.76+411723.1 20:33:20.76 41:17:23.16 0.12 2.87 4.54 28 0.89 30 89.5876 0.376 0.047 0.183 0.147 2.56 -0.58
684 203320.83+411013.4 20:33:20.84 41:10:13.48 0.47 5.05 2.34 110 0.90 11 88.5448 0.146 0.012 0.014 0.120 4.91 -0.01
685 203320.93+411207.9 20:33:20.94 41:12: 7.93 0.14 3.31 4.98 34 0.89 35 77.6832 0.508 0.141 0.185 0.182 2.27 -0.01
686 203321.01+411739.8 20:33:21.01 41:17:39.88 0.13 3.12 5.05 32 0.90 36 86.0163 0.466 0.254 0.189 0.023 1.66 -0.01
687 203321.04+411708.8 20:33:21.05 41:17: 8.88 0.08 2.70 8.60 26 0.89 91 93.3003 1.099 0.154 0.418 0.527 2.68 -4.00 $\dag $
688 203321.04+410647.3 20:33:21.05 41:06:47.35 0.51 8.39 4.76 620 0.90 39 96.8088 0.457 0.104 0.194 0.159 2.39 -0.41
689 203321.10+411659.2 20:33:21.10 41:16:59.30 0.22 2.59 1.53 24 0.89 5 85.3065 0.072 0.010 0.051 0.011 2.04 -0.22
690 203321.11+411756.6 20:33:21.12 41:17:56.62 0.20 3.37 3.67 36 0.90 21 88.7490 0.276 0.043 0.078 0.155 2.90 -3.07
691 203321.14+411242.1 20:33:21.14 41:12:42.12 0.28 2.85 1.71 26 0.89 6 90.6399 0.080 0.023 0.035 0.022 1.89 -0.53
692 203321.15+411325.4 20:33:21.15 41:13:25.46 0.15 2.31 3.30 21 0.89 17 90.5676 0.218 0.098 0.085 0.035 1.74 -0.14
693 203321.21+411845.9 20:33:21.21 41:18:45.91 0.28 4.12 3.87 58 0.91 23 93.4605 0.277 0.029 0.158 0.090 2.11 -0.64
694 203321.25+411839.4 20:33:21.25 41:18:39.49 0.14 4.02 5.81 55 0.90 46 93.6301 0.548 0.158 0.181 0.209 2.20 -4.00 $\dag $
695 203321.27+411250.3 20:33:21.28 41:12:50.34 0.14 2.76 4.76 25 0.89 32 97.6600 0.371 0.101 0.147 0.123 2.01 -0.04
696 203321.29+411312.8 20:33:21.30 41:13:12.87 0.26 2.48 1.74 22 0.89 6 66.7054 0.110 0.015 0.031 0.064 2.84 -0.20
697 203321.59+411229.1 20:33:21.60 41:12:29.16 0.23 3.08 2.91 29 0.89 14 66.7180 0.243 0.031 0.115 0.097 1.95 -0.53
698 203321.64+411127.0 20:33:21.64 41:11:27.03 0.37 3.98 1.89 50 0.89 7 86.1922 0.101 0.007 0.009 0.085 3.20 -0.64
699 203321.69+412026.3 20:33:21.69 41:20:26.31 0.47 5.71 3.32 174 0.91 19 95.3639 0.230 0.066 0.089 0.076 1.88 -0.08
700 203321.73+411511.1 20:33:21.74 41:15:11.16 0.08 1.80 6.65 20 0.90 57 94.5724 0.678 0.093 0.363 0.222 2.40 -1.00
701 203321.81+411332.2 20:33:21.81 41:13:32.28 0.08 2.33 7.15 21 0.89 65 93.7118 0.785 0.166 0.310 0.309 2.25 -0.21
702 203321.85+412136.1 20:33:21.86 41:21:36.18 0.38 6.84 5.30 310 0.90 42 93.1370 0.506 0.122 0.233 0.151 2.34 -0.56
703 203321.83+410944.6 20:33:21.83 41:09:44.61 0.35 5.57 3.47 130 0.89 20 89.5405 0.260 0.048 0.115 0.097 2.53 -0.04
704 203321.90+411316.5 20:33:21.91 41:13:16.54 0.18 2.51 3.40 23 0.89 18 95.8445 0.217 0.057 0.104 0.056 2.20 -0.26
705 203321.92+411731.3 20:33:21.93 41:17:31.38 0.12 3.10 6.05 32 0.90 49 95.7503 0.572 0.056 0.287 0.229 2.24 -0.81
706 203321.97+412037.2 20:33:21.97 41:20:37.21 0.52 5.90 2.72 193 0.91 14 89.8703 0.178 0.024 0.072 0.082 2.50 -0.26
707 203322.00+411431.3 20:33:22.00 41:14:31.34 0.19 1.90 3.04 20 0.90 15 72.4409 0.238 0.059 0.106 0.073 2.11 -2.42
708 203322.01+411217.5 20:33:22.02 41:12:17.57 0.09 3.28 8.89 33 0.89 97 94.8300 1.153 0.317 0.531 0.304 2.02 -0.04
709 203322.06+412153.8 20:33:22.07 41:21:53.86 0.47 7.13 4.21 346 0.89 28 79.1312 0.407 0.013 0.194 0.199 2.77 -2.86 $\dag $
710 203322.06+411003.9 20:33:22.06 41:10: 3.90 0.20 5.28 7.96 126 0.91 81 94.9964 0.950 0.174 0.418 0.357 2.31 -2.48
711 203322.12+411245.1 20:33:22.13 41:12:45.10 0.15 2.93 4.42 27 0.89 28 87.3575 0.366 0.152 0.152 0.062 1.85 -0.24
712 203322.25+411744.3 20:33:22.25 41:17:44.30 0.06 3.31 13.48 35 0.90 209 97.1260 2.392 0.397 1.209 0.786 2.26 -3.43 $\dag $
713 203322.34+411815.8 20:33:22.35 41:18:15.80 0.25 3.77 3.25 47 0.89 18 86.2268 0.234 0.032 0.027 0.175 3.50 -0.58
714 203322.37+411551.4 20:33:22.38 41:15:51.44 0.18 2.09 1.24 2 0.40 3 42.7742 0.228 -0.001 0.115 0.114 3.37 -0.01
715 203322.40+411551.4 20:33:22.40 41:15:51.40 0.22 2.09 1.00 3 0.41 2 42.7742 0.168 -0.001 0.056 0.113 3.37 -0.08
716 203322.44+411736.5 20:33:22.44 41:17:36.60 0.26 3.23 2.29 34 0.90 10 46.9674 0.240 0.114 0.038 0.088 1.82 -1.16
717 203322.57+411340.2 20:33:22.57 41:13:40.30 0.27 2.36 1.74 21 0.89 6 78.7323 0.094 0.013 0.027 0.055 3.03 -0.48
718 203322.91+411859.8 20:33:22.92 41:18:59.87 0.19 4.46 5.06 71 0.89 37 92.2072 0.454 0.085 0.207 0.162 2.28 -1.06
719 203323.02+411612.0 20:33:23.02 41:16:12.00 0.22 2.35 2.20 21 0.89 9 88.3438 0.120 0.036 0.049 0.035 1.77 -0.33
720 203323.02+410932.5 20:33:23.02 41:09:32.58 0.49 5.83 2.58 148 0.89 14 91.7926 0.172 0.026 0.092 0.054 1.98 -0.43
721 203323.02+411222.0 20:33:23.03 41:12:22.10 0.04 3.33 18.74 34 0.89 389 97.6600 4.477 3.402 0.883 0.192 1.28 -0.57
722 203323.02+411222.1 20:33:23.03 41:12:22.10 0.03 3.33 11.77 4 0.39 161 96.5355 4.259 3.340 0.710 0.209 1.25 -0.32
723 203323.22+411909.2 20:33:23.23 41:19: 9.29 0.28 4.63 2.70 29 0.69 13 89.9457 0.210 0.091 0.058 0.061 1.73 -0.14
724 203323.34+411236.2 20:33:23.35 41:12:36.28 0.07 3.19 11.88 31 0.89 165 96.4193 1.920 0.496 0.730 0.694 2.21 -2.72 $\dag $
725 203323.38+411912.1 20:33:23.39 41:19:12.15 0.18 4.69 4.71 30 0.69 32 94.6164 0.490 0.117 0.132 0.242 2.43 -0.03
726 203323.37+411347.3 20:33:23.37 41:13:47.40 0.27 2.43 1.93 25 0.90 7 74.4040 0.114 0.058 0.043 0.012 1.69 -0.02
727 203323.38+411747.8 20:33:23.39 41:17:47.83 0.14 3.49 3.85 16 0.73 22 85.8844 0.362 0.078 0.062 0.222 3.12 -1.97
728 203323.43+412039.8 20:33:23.43 41:20:39.83 0.39 6.03 4.20 178 0.89 28 95.5304 0.333 0.298 0.032 0.002 1.28 -0.59
729 203323.48+410912.2 20:33:23.48 41:09:12.28 0.03 6.18 59.99 200 0.90 3731 97.7574 42.504 15.599 16.900 10.006 1.93 -1.56
730 203323.57+411746.8 20:33:23.58 41:17:46.86 0.18 3.50 2.80 15 0.71 13 83.7799 0.229 0.082 0.082 0.065 2.06 -2.47
731 203323.67+412151.0 20:33:23.68 41:21:51.01 0.43 7.17 4.07 130 0.67 25 97.5187 0.390 0.117 0.205 0.068 1.89 -0.35
732 203323.73+411537.3 20:33:23.74 41:15:37.32 0.12 2.25 4.87 19 0.89 33 97.0727 0.389 0.068 0.195 0.125 1.99 -0.16
733 203323.77+412006.4 20:33:23.77 41:20: 6.46 0.23 5.54 6.70 153 0.90 61 96.6769 0.704 0.134 0.384 0.185 2.18 -0.03
734 203323.84+411310.6 20:33:23.84 41:13:10.67 0.12 2.85 6.61 27 0.89 57 94.6761 0.680 0.223 0.295 0.162 2.02 -0.42
735 203323.83+411106.4 20:33:23.83 41:11: 6.43 0.31 4.47 3.22 67 0.89 17 93.3129 0.211 0.032 0.055 0.123 3.37 -0.04
736 203323.89+412207.8 20:33:23.90 41:22: 7.89 0.41 7.45 6.53 459 0.90 59 96.4790 0.686 0.129 0.360 0.197 1.98 -1.87
737 203323.94+411640.2 20:33:23.94 41:16:40.26 0.24 2.76 2.01 25 0.89 8 59.3210 0.156 0.071 0.033 0.052 1.89 -0.30
738 203324.01+412145.9 20:33:24.02 41:21:45.93 0.46 7.11 3.61 129 0.68 21 92.5088 0.338 0.040 0.229 0.069 2.30 -0.15
739 203324.25+411700.1 20:33:24.25 41:17: 0.14 0.12 3.01 5.13 29 0.89 37 88.0643 0.471 0.124 0.237 0.110 2.07 -0.25
740 203324.31+412106.7 20:33:24.32 41:21: 6.76 0.46 6.51 4.08 257 0.90 28 75.8772 0.425 0.066 0.145 0.214 3.15 -4.00 $\dag $
741 203324.32+411752.5 20:33:24.32 41:17:52.56 0.28 3.66 2.02 42 0.90 8 54.9738 0.175 0.154 0.011 0.010 1.16 -0.53
742 203324.38+411416.6 20:33:24.39 41:14:16.68 0.32 2.40 1.05 25 0.90 3 53.4033 0.070 0.017 0.038 0.015 2.22 -0.45
743 203324.41+412032.8 20:33:24.41 41:20:32.82 0.11 5.99 19.34 198 0.91 417 97.4150 4.721 0.760 1.826 2.134 2.64 -4.00 $\dag $
744 203324.39+410812.3 20:33:24.40 41:08:12.34 0.47 7.18 4.59 354 0.90 35 95.5179 0.407 0.164 0.149 0.095 1.95 -0.01
745 203324.48+411532.7 20:33:24.48 41:15:32.80 0.07 2.37 4.57 4 0.53 29 90.5614 0.626 0.167 0.293 0.167 2.32 -1.16
746 203324.53+411534.0 20:33:24.54 41:15:34.02 0.04 2.38 8.70 4 0.53 92 94.4876 1.865 0.381 0.762 0.722 2.39 -4.00
747 203324.55+411046.3 20:33:24.56 41:10:46.38 0.42 4.83 2.43 84 0.89 11 78.2895 0.164 0.037 0.096 0.031 1.86 -0.24
748 203324.58+411907.9 20:33:24.59 41:19: 7.94 0.38 4.73 2.72 82 0.89 13 87.8884 0.177 0.056 0.067 0.054 2.09 -0.03
749 203324.60+411553.8 20:33:24.61 41:15:53.89 0.21 2.49 1.92 25 0.90 7 46.6250 0.180 -0.003 0.116 0.068 2.56 -1.52
750 203324.62+411059.4 20:33:24.62 41:10:59.46 0.13 4.65 9.14 75 0.89 102 93.6333 1.229 0.259 0.463 0.507 2.11 -4.00 $\dag $
751 203324.77+412223.1 20:33:24.77 41:22:23.12 0.51 7.74 5.85 551 0.90 50 97.4778 0.583 0.157 0.239 0.187 2.15 -2.42
752 203324.89+412001.6 20:33:24.89 41:20: 1.64 0.43 5.55 1.87 153 0.90 8 82.9978 0.118 0.012 0.025 0.081 3.12 -0.07
753 203324.96+410836.3 20:33:24.96 41:08:36.38 0.07 6.84 36.48 278 0.89 1416 97.3868 16.256 2.229 5.395 8.632 2.97 -0.14
754 203325.01+411537.0 20:33:25.02 41:15:37.08 0.12 2.48 5.04 24 0.90 35 94.8174 0.416 0.069 0.127 0.220 2.96 -0.00
755 203325.12+411818.6 20:33:25.12 41:18:18.65 0.32 4.09 1.93 56 0.90 8 69.7931 0.132 0.036 0.008 0.088 3.10 -0.94
756 203325.10+411050.1 20:33:25.11 41:10:50.16 0.37 4.83 2.89 84 0.89 14 85.8687 0.192 0.047 0.036 0.109 3.41 -0.51
757 203325.10+410724.8 20:33:25.11 41:07:24.89 0.68 7.97 2.74 472 0.89 17 72.3812 0.269 0.055 0.057 0.157 3.36 -0.60
758 203325.23+411146.1 20:33:25.24 41:11:46.17 0.51 4.06 1.91 53 0.90 7 74.2187 0.118 0.010 0.041 0.067 4.33 -0.00
759 203325.27+410918.4 20:33:25.28 41:09:18.44 0.40 6.21 3.67 203 0.90 24 90.4294 0.301 0.064 0.113 0.123 2.44 -1.74
760 203325.42+411039.4 20:33:25.42 41:10:39.47 0.28 5.01 4.41 93 0.89 29 79.9793 0.411 0.092 0.233 0.086 2.04 -0.06
761 203325.50+410932.1 20:33:25.50 41:09:32.18 0.35 6.02 4.54 186 0.90 32 92.5402 0.393 0.184 0.112 0.098 1.80 -0.17
762 203325.66+411555.6 20:33:25.66 41:15:55.69 0.13 2.69 5.11 27 0.90 36 95.9042 0.422 0.044 0.160 0.218 2.81 -0.30
763 203325.82+411853.6 20:33:25.83 41:18:53.64 0.12 4.65 9.83 77 0.89 117 95.0310 1.390 0.252 0.511 0.627 2.52 -0.36
764 203325.91+411322.2 20:33:25.91 41:13:22.29 0.11 3.05 6.22 30 0.89 51 95.0122 0.604 0.210 0.245 0.150 2.02 -0.28
765 203325.92+411333.2 20:33:25.92 41:13:33.24 0.18 2.96 2.52 29 0.89 11 39.7368 0.325 0.108 0.108 0.108 1.86 -2.71
766 203325.93+411718.6 20:33:25.94 41:17:18.63 0.37 3.45 1.39 37 0.90 4 79.7720 0.070 0.009 0.051 0.010 2.01 -0.15
767 203325.94+411316.5 20:33:25.95 41:13:16.58 0.18 3.11 2.63 31 0.89 12 80.8965 0.171 0.053 0.094 0.024 1.91 -0.64
768 203326.03+411901.1 20:33:26.04 41:19: 1.12 0.39 4.77 2.11 82 0.89 9 78.7480 0.138 0.047 0.033 0.058 2.80 -0.17
769 203326.08+411229.6 20:33:26.08 41:12:29.62 0.20 3.62 4.55 40 0.90 30 93.0773 0.362 0.106 0.129 0.127 2.43 -0.18
770 203326.11+411549.0 20:33:26.12 41:15:49.02 0.08 2.73 7.08 28 0.90 64 90.2567 0.792 0.182 0.256 0.354 2.30 -0.46
771 203326.28+412146.7 20:33:26.29 41:21:46.73 0.66 7.26 3.45 387 0.90 22 92.0094 0.274 0.001 0.081 0.192 4.15 -0.16
772 203326.33+411806.0 20:33:26.33 41:18: 6.06 0.21 4.07 3.97 53 0.89 24 97.5187 0.281 0.029 0.132 0.120 2.11 -0.13
773 203326.33+411238.4 20:33:26.34 41:12:38.41 0.15 3.56 5.22 39 0.90 38 88.5951 0.480 0.187 0.197 0.096 1.93 -1.07
774 203326.33+410819.1 20:33:26.33 41:08:19.11 0.57 7.20 3.35 325 0.89 23 88.6956 0.291 0.185 0.074 0.033 1.47 -0.07
775 203326.44+411048.5 20:33:26.45 41:10:48.58 0.30 4.98 4.45 105 0.91 29 72.9592 0.452 0.084 0.143 0.225 2.74 -3.07
776 203326.55+411503.6 20:33:26.56 41:15: 3.64 0.25 2.69 1.92 25 0.89 7 80.7143 0.106 -0.002 0.082 0.026 2.68 0.00
777 203326.60+411547.3 20:33:26.60 41:15:47.31 0.07 2.81 10.06 26 0.89 121 95.7534 1.426 0.315 0.726 0.385 2.10 -0.09
778 203326.68+411555.4 20:33:26.69 41:15:55.44 0.40 2.87 1.70 27 0.89 6 59.7199 0.121 0.035 0.091 -0.004 2.10 -0.90
779 203326.74+411059.3 20:33:26.75 41:10:59.30 0.08 4.86 17.18 98 0.91 331 97.5218 3.753 1.477 1.350 0.926 1.82 -0.14
780 203326.81+412046.9 20:33:26.81 41:20:46.96 0.57 6.39 2.12 236 0.90 11 50.1021 0.247 -0.004 0.123 0.127 2.76 -1.31
781 203326.79+411217.6 20:33:26.79 41:12:17.64 0.17 3.86 4.34 47 0.89 28 88.4977 0.355 0.099 0.160 0.095 2.08 -0.31
782 203326.85+411741.3 20:33:26.85 41:17:41.35 0.24 3.84 3.35 45 0.90 18 83.0355 0.250 0.035 0.129 0.086 2.42 -0.07
783 203326.87+411319.1 20:33:26.87 41:13:19.13 0.19 3.23 3.01 33 0.90 15 75.7170 0.226 0.027 0.115 0.084 2.14 -0.28
784 203327.11+411822.5 20:33:27.11 41:18:22.51 0.18 4.37 5.67 65 0.90 44 95.7157 0.521 0.096 0.260 0.166 2.15 -1.48
785 203327.19+411709.8 20:33:27.19 41:17: 9.88 0.17 3.54 4.15 39 0.89 26 80.8085 0.360 0.037 0.218 0.105 2.12 -0.36
786 203327.23+412008.8 20:33:27.23 41:20: 8.84 0.15 5.86 11.29 177 0.90 153 97.1952 1.751 0.432 0.713 0.605 2.10 -0.86
787 203327.30+411525.6 20:33:27.30 41:15:25.62 0.15 2.86 3.83 27 0.89 22 94.5253 0.266 0.034 0.116 0.116 2.45 -0.41
788 203327.31+410751.3 20:33:27.31 41:07:51.38 0.63 7.70 2.90 444 0.90 18 91.1707 0.224 0.091 0.044 0.089 1.72 -0.51
789 203327.45+411626.5 20:33:27.46 41:16:26.54 0.21 3.20 2.88 31 0.89 14 67.2488 0.238 0.046 0.114 0.078 2.14 -4.00 $\dag $
790 203327.59+411507.0 20:33:27.59 41:15: 7.06 0.29 2.89 2.26 28 0.89 9 76.4771 0.141 0.042 0.057 0.042 2.27 -0.43
791 203327.61+412015.7 20:33:27.62 41:20:15.72 0.43 5.99 4.13 190 0.90 28 91.8743 0.340 0.153 0.125 0.061 1.80 -0.77
792 203327.91+411509.4 20:33:27.92 41:15: 9.46 0.19 2.95 2.93 28 0.90 14 72.7268 0.224 0.059 0.106 0.059 2.05 -0.08
793 203328.32+412126.7 20:33:28.32 41:21:26.79 0.69 7.11 3.09 338 0.90 18 83.2554 0.252 0.029 0.150 0.073 2.43 -0.35
794 203328.32+410933.9 20:33:28.32 41:09:33.95 0.33 6.23 5.59 207 0.91 46 92.9705 0.550 0.168 0.284 0.098 2.02 -0.78
795 203328.36+411501.3 20:33:28.37 41:15: 1.38 0.14 3.03 3.94 30 0.90 23 85.7619 0.306 0.089 0.076 0.140 2.41 -0.23
796 203328.43+411937.1 20:33:28.43 41:19:37.20 0.09 5.52 18.22 127 0.89 370 95.9011 4.338 0.690 1.686 1.961 2.47 -4.00 $\dag $
797 203328.49+411915.4 20:33:28.49 41:19:15.42 0.22 5.23 5.11 107 0.89 38 77.9031 0.550 0.130 0.234 0.186 2.04 -3.21 $\dag $
798 203328.54+410716.7 20:33:28.54 41:07:16.72 0.30 8.32 10.50 592 0.90 139 92.4868 1.673 0.319 0.698 0.655 2.26 -4.00 $\dag $
799 203328.58+411409.4 20:33:28.59 41:14: 9.45 0.22 3.19 2.64 34 0.89 12 64.6544 0.216 0.050 0.085 0.081 2.23 -0.25
800 203328.74+411611.3 20:33:28.75 41:16:11.38 0.31 3.32 1.85 34 0.90 7 75.7201 0.108 0.011 0.042 0.055 2.64 -0.00
801 203328.74+411424.0 20:33:28.74 41:14:24.01 0.16 3.16 4.65 32 0.89 31 95.8068 0.366 0.080 0.221 0.066 2.17 -0.06
802 203329.20+411425.8 20:33:29.21 41:14:25.80 0.23 3.24 2.84 34 0.89 14 74.1151 0.214 0.072 0.118 0.024 1.92 -0.34
803 203329.26+412138.2 20:33:29.27 41:21:38.23 0.61 7.36 3.96 395 0.90 27 93.6427 0.321 0.107 0.114 0.100 2.12 -0.04
804 203329.31+411605.8 20:33:29.31 41:16: 5.85 0.18 3.39 3.37 35 0.90 18 91.7675 0.222 0.059 0.119 0.045 1.99 -0.33
805 203329.41+411806.2 20:33:29.41 41:18: 6.23 0.35 4.47 2.46 67 0.89 11 96.0832 0.139 0.038 0.063 0.039 2.17 -0.05
806 203329.45+412034.8 20:33:29.46 41:20:34.84 0.48 6.44 3.41 235 0.90 21 91.5194 0.255 0.056 0.066 0.133 2.85 -0.42
807 203329.48+411858.7 20:33:29.49 41:18:58.79 0.53 5.12 2.05 115 0.91 9 77.8057 0.137 0.039 0.074 0.025 2.11 -0.42
808 203329.57+412005.5 20:33:29.58 41:20: 5.50 0.39 6.04 4.49 191 0.90 31 89.1165 0.396 0.080 0.185 0.131 2.02 -0.30
809 203329.72+411557.2 20:33:29.73 41:15:57.28 0.15 3.42 6.27 36 0.90 52 95.3891 0.611 0.208 0.231 0.172 1.88 -0.71
810 203329.95+411218.5 20:33:29.96 41:12:18.50 0.27 4.29 3.01 63 0.90 15 91.0231 0.192 0.069 0.069 0.055 2.20 -0.01
811 203330.25+411608.5 20:33:30.26 41:16: 8.54 0.16 3.57 4.83 39 0.90 33 88.8150 0.418 0.098 0.236 0.084 1.99 -0.03
812 203330.32+411406.2 20:33:30.33 41:14: 6.29 0.20 3.52 3.22 42 0.89 17 92.8260 0.208 0.034 0.094 0.080 2.30 -0.05
813 203330.47+412016.4 20:33:30.48 41:20:16.48 0.29 6.28 6.85 217 0.90 63 97.4998 0.719 0.192 0.304 0.223 2.15 -1.61
814 203330.47+410935.7 20:33:30.48 41:09:35.71 0.54 6.41 3.27 224 0.90 19 90.3509 0.246 0.131 0.048 0.067 1.69 -0.73
815 203330.51+411722.0 20:33:30.51 41:17:22.03 0.27 4.17 3.16 54 0.90 16 90.2378 0.208 0.082 0.119 0.006 1.89 -0.09
816 203330.57+411012.0 20:33:30.58 41:10:12.08 0.58 5.92 2.52 174 0.90 13 96.1680 0.152 0.069 0.019 0.064 2.07 -0.05
817 203330.74+411522.7 20:33:30.75 41:15:22.78 0.22 3.50 2.16 37 0.89 9 78.1324 0.133 0.111 0.012 0.010 1.39 -0.15
818 203331.06+412025.5 20:33:31.07 41:20:25.58 0.17 6.47 11.91 238 0.90 168 95.1347 1.958 0.383 0.743 0.833 2.33 -4.00 $\dag $
819 203331.14+411317.4 20:33:31.14 41:13:17.40 0.29 3.95 1.86 53 0.90 7 88.8935 0.096 0.009 0.022 0.066 3.06 -0.01
820 203331.20+411610.4 20:33:31.20 41:16:10.49 0.13 3.75 3.56 10 0.55 19 94.8928 0.377 0.132 0.132 0.113 1.83 -1.30
821 203331.27+412131.4 20:33:31.27 41:21:31.47 0.61 7.43 4.38 374 0.89 30 97.6946 0.352 0.100 0.125 0.128 2.20 -0.08
822 203331.33+411602.8 20:33:31.33 41:16: 2.90 0.18 3.74 3.65 43 0.89 21 95.3011 0.248 0.056 0.149 0.043 2.26 -0.35
823 203331.36+411609.6 20:33:31.36 41:16: 9.62 0.14 3.78 1.97 10 0.55 7 86.6602 0.163 0.040 0.061 0.061 2.10 -1.95
824 203331.36+411529.3 20:33:31.37 41:15:29.31 0.16 3.63 4.88 41 0.89 34 88.7239 0.431 0.110 0.162 0.159 1.92 -1.16
825 203331.35+410912.5 20:33:31.36 41:09:12.60 0.65 6.83 3.20 274 0.90 19 75.9714 0.281 0.082 0.158 0.042 1.96 -1.25
826 203331.35+410912.6 20:33:31.36 41:09:12.60 0.65 6.83 3.21 274 0.90 19 75.9714 0.282 0.082 0.158 0.042 1.96 -1.25
827 203331.72+411532.9 20:33:31.73 41:15:32.95 0.20 3.70 3.21 43 0.89 17 78.5941 0.244 0.096 0.083 0.066 1.73 -0.42
828 203331.77+412047.2 20:33:31.77 41:20:47.29 0.17 6.84 13.98 285 0.89 228 96.7460 2.641 0.616 1.265 0.760 2.14 -0.36
829 203331.87+411003.3 20:33:31.87 41:10: 3.40 0.49 6.18 2.65 201 0.90 14 81.0064 0.199 0.067 0.079 0.053 1.74 -0.03
830 203331.91+411642.9 20:33:31.91 41:16:42.93 0.20 4.07 4.21 52 0.89 26 92.7758 0.324 0.055 0.129 0.140 2.26 -0.34
831 203332.11+412122.2 20:33:32.12 41:21:22.24 0.37 7.38 7.35 372 0.90 72 95.6184 0.843 0.184 0.427 0.232 2.28 -1.05
832 203332.11+412019.7 20:33:32.12 41:20:19.76 0.59 6.50 2.89 240 0.90 16 90.5174 0.201 0.080 0.072 0.050 1.79 -0.06
833 203332.05+410558.7 20:33:32.05 41:05:58.77 0.83 9.77 4.27 1255 0.91 36 96.6486 0.417 0.038 0.024 0.355 5.02 -0.38
834 203332.16+411801.9 20:33:32.16 41:18: 1.91 0.10 4.81 12.17 81 0.89 173 69.7020 2.795 0.407 1.069 1.319 2.66 -4.00 $\dag $
835 203332.28+411639.2 20:33:32.29 41:16:39.22 0.29 4.11 1.70 53 0.89 6 87.3701 0.087 0.007 0.047 0.032 2.01 -0.02
836 203332.38+411155.8 20:33:32.38 41:11:55.83 0.42 4.88 2.19 101 0.91 10 77.5168 0.142 0.035 0.063 0.045 1.88 -0.05
837 203332.47+411543.1 20:33:32.48 41:15:43.16 0.19 3.87 4.79 47 0.89 33 89.1762 0.416 0.034 0.223 0.158 2.27 -0.38
838 203332.68+411100.1 20:33:32.68 41:11: 0.17 0.40 5.56 3.82 147 0.91 23 96.2937 0.275 0.083 0.107 0.085 2.17 -0.35
839 203332.74+411251.8 20:33:32.75 41:12:51.87 0.38 4.42 1.80 69 0.89 7 86.0791 0.097 0.059 0.019 0.019 1.54 -0.22
840 203332.81+410519.6 20:33:32.81 41:05:19.68 0.78 10.43 5.73 1807 0.91 59 97.3522 0.675 0.269 0.171 0.236 2.12 -0.05
841 203332.92+412147.2 20:33:32.93 41:21:47.24 0.67 7.81 2.87 286 0.79 15 92.2355 0.214 0.030 0.098 0.086 2.26 -0.80
842 203332.93+411040.4 20:33:32.94 41:10:40.43 0.26 5.83 6.22 170 0.90 53 95.8759 0.618 0.174 0.222 0.223 2.18 -0.07
843 203333.01+411428.5 20:33:33.02 41:14:28.54 0.24 3.94 2.69 53 0.90 13 68.3074 0.212 0.095 0.109 0.008 1.74 -0.01
844 203333.09+411730.0 20:33:33.09 41:17:30.02 0.35 4.64 3.15 82 0.91 17 91.2712 0.207 0.066 0.102 0.039 1.95 -0.01
845 203333.09+411132.4 20:33:33.09 41:11:32.46 0.50 5.24 2.42 125 0.91 11 80.1364 0.161 0.032 0.063 0.067 1.98 -0.12
846 203333.43+411917.2 20:33:33.44 41:19:17.28 0.46 5.84 2.43 146 0.89 12 91.9214 0.148 0.025 0.089 0.034 2.24 -0.01
847 203333.44+410803.1 20:33:33.44 41:08: 3.15 0.52 8.02 4.55 512 0.90 34 92.0282 0.420 0.095 0.190 0.135 2.39 -0.08
848 203333.72+412152.1 20:33:33.73 41:21:52.12 0.38 7.96 4.08 157 0.63 25 97.2862 0.421 0.137 0.203 0.081 1.98 -0.25
849 203333.78+411937.0 20:33:33.79 41:19:37.06 0.30 6.13 6.62 195 0.90 59 94.5347 0.703 0.187 0.279 0.237 2.08 -0.31
850 203333.96+411129.5 20:33:33.97 41:11:29.54 0.37 5.39 2.97 137 0.91 15 83.7579 0.209 0.071 0.126 0.011 1.74 -0.50 $\dag $
851 203334.06+412145.9 20:33:34.06 41:21:45.90 0.45 7.90 3.98 153 0.64 24 94.2206 0.415 0.023 0.075 0.317 4.35 -0.24
852 203334.26+411851.4 20:33:34.26 41:18:51.48 0.46 5.65 2.67 151 0.90 14 92.5653 0.175 0.090 0.048 0.037 1.69 -1.38
853 203334.27+411422.2 20:33:34.27 41:14:22.28 0.31 4.19 3.29 61 0.89 17 82.3131 0.244 0.038 0.133 0.073 2.15 -0.23
854 203334.53+412136.6 20:33:34.53 41:21:36.61 0.48 7.82 4.71 346 0.84 34 95.8665 0.434 0.096 0.195 0.143 2.17 -0.08
855 203334.55+411622.2 20:33:34.56 41:16:22.22 0.38 4.41 2.63 64 0.90 12 96.4068 0.147 0.019 0.076 0.052 2.15 -0.18
856 203334.62+412039.6 20:33:34.63 41:20:39.70 0.48 7.04 4.93 305 0.89 37 94.6604 0.441 0.137 0.162 0.142 2.32 -0.02
857 203334.74+412050.5 20:33:34.75 41:20:50.58 0.28 7.20 9.56 332 0.89 113 96.9910 1.316 0.333 0.553 0.430 2.20 -2.21
858 203334.74+411147.7 20:33:34.75 41:11:47.80 0.28 5.32 4.24 117 0.89 27 83.3810 0.374 0.154 0.142 0.078 1.83 -0.03
859 203334.79+411456.1 20:33:34.80 41:14:56.11 0.32 4.24 1.75 61 0.89 6 53.9121 0.144 0.077 0.016 0.051 1.63 -0.05
860 203334.80+410748.7 20:33:34.80 41:07:48.78 0.73 8.36 3.80 589 0.90 27 96.3973 0.313 0.086 0.111 0.116 2.20 -1.10
861 203334.92+410857.5 20:33:34.93 41:08:57.52 0.72 7.41 2.36 383 0.90 13 93.7966 0.159 0.077 0.040 0.042 1.59 -0.45
862 203335.05+411612.2 20:33:35.05 41:16:12.25 0.48 4.45 2.53 65 0.90 11 88.0957 0.150 0.084 0.034 0.032 1.64 -0.00
863 203335.22+411119.2 20:33:35.23 41:11:19.28 0.12 5.69 15.37 141 0.89 268 96.5858 3.118 0.736 1.108 1.274 2.37 -4.00 $\dag $
864 203335.33+412059.5 20:33:35.33 41:20:59.53 0.37 7.39 6.36 363 0.89 56 95.9607 0.655 0.032 0.080 0.543 3.91 -1.43
865 203335.33+411821.8 20:33:35.33 41:18:21.82 0.37 5.48 4.03 119 0.89 25 91.6544 0.310 0.078 0.057 0.175 2.90 -0.45
866 203335.28+410714.0 20:33:35.28 41:07:14.08 0.65 8.90 4.30 741 0.90 34 89.5562 0.434 0.106 0.181 0.146 2.37 -0.91
867 203335.57+411659.0 20:33:35.57 41:16:59.09 0.30 4.81 4.40 80 0.90 29 83.3653 0.392 0.101 0.100 0.190 2.75 -1.00
868 203335.61+411556.4 20:33:35.62 41:15:56.48 0.30 4.49 3.94 68 0.89 23 93.0585 0.287 0.104 0.117 0.066 2.26 -0.05
869 203335.66+411205.9 20:33:35.66 41:12: 5.91 0.46 5.28 2.30 115 0.90 10 85.1243 0.142 0.031 0.074 0.037 1.89 -0.28
870 203335.66+410630.5 20:33:35.66 41:06:30.56 0.60 9.58 4.98 939 0.89 42 95.4330 0.497 0.208 0.170 0.119 1.82 -0.63
871 203335.80+411519.5 20:33:35.81 41:15:19.52 0.42 4.44 2.35 76 0.91 10 56.1548 0.212 0.013 0.093 0.105 2.77 -1.22
872 203335.87+410649.5 20:33:35.87 41:06:49.54 0.31 9.32 12.60 858 0.90 192 85.7211 2.506 0.590 0.675 1.242 2.78 -4.00 $\dag $
873 203336.00+411834.5 20:33:36.01 41:18:34.52 0.53 5.71 2.64 156 0.90 13 89.7981 0.165 0.062 0.042 0.061 1.99 -0.01
874 203336.25+410812.7 20:33:36.25 41:08:12.76 0.44 8.16 5.03 548 0.90 42 92.6407 0.511 0.152 0.221 0.139 1.98 -0.14
875 203336.34+412050.7 20:33:36.34 41:20:50.78 0.64 7.39 3.34 391 0.90 20 96.9753 0.229 0.079 0.090 0.060 2.14 -0.31
876 203336.29+411034.3 20:33:36.30 41:10:34.32 0.29 6.34 6.36 217 0.90 56 97.0601 0.654 0.284 0.201 0.169 1.80 -1.57
877 203336.40+411818.4 20:33:36.41 41:18:18.43 0.26 5.61 4.86 128 0.89 34 84.0815 0.458 0.112 0.089 0.258 2.99 -4.00 $\dag $
878 203336.67+411543.1 20:33:36.68 41:15:43.16 0.18 4.65 5.75 87 0.91 45 92.6721 0.541 0.090 0.198 0.254 2.74 -1.37
879 203336.64+410846.5 20:33:36.64 41:08:46.51 0.41 7.75 6.61 456 0.90 62 93.8280 0.742 0.052 0.150 0.540 3.89 -0.42
880 203336.69+411509.4 20:33:36.69 41:15: 9.46 0.49 4.60 2.09 85 0.91 9 90.0619 0.114 0.008 0.032 0.073 4.12 -0.56
881 203336.98+411610.9 20:33:36.99 41:16:10.98 0.17 4.80 6.27 80 0.89 52 91.1299 0.649 0.365 0.267 0.017 1.60 -0.67
882 203337.00+411157.8 20:33:37.00 41:11:57.88 0.49 5.57 2.52 147 0.90 12 90.9634 0.153 0.077 0.066 0.010 1.67 -0.18
883 203337.41+412028.9 20:33:37.41 41:20:28.93 0.54 7.23 4.64 278 0.86 33 89.3081 0.433 -0.002 0.078 0.356 4.20 -0.26
884 203337.47+412101.6 20:33:37.48 41:21: 1.66 0.45 7.66 6.34 412 0.89 57 95.6246 0.670 0.038 0.227 0.405 3.34 -0.14
885 203337.58+412048.6 20:33:37.58 41:20:48.62 0.67 7.50 3.49 379 0.89 21 94.0196 0.258 0.059 0.140 0.060 2.21 -1.31
886 203337.80+411640.3 20:33:37.80 41:16:40.38 0.21 5.08 5.98 109 0.91 49 89.0191 0.614 0.151 0.316 0.147 2.12 -0.40
887 203338.01+412036.0 20:33:38.01 41:20:36.03 0.78 7.40 2.25 296 0.86 11 92.8543 0.141 0.051 0.021 0.069 1.76 -0.27
888 203338.24+411833.4 20:33:38.25 41:18:33.45 0.56 6.04 2.75 181 0.90 14 83.6543 0.194 0.052 0.072 0.070 2.12 -0.09
889 203338.37+411620.4 20:33:38.37 41:16:20.42 0.53 5.09 1.72 111 0.91 7 91.4660 0.086 0.100 -0.005 -0.010 1.06 -0.07
890 203338.56+411914.3 20:33:38.56 41:19:14.38 0.59 6.51 3.43 231 0.90 20 79.0810 0.288 0.071 0.099 0.118 2.30 -0.17
891 203338.62+412012.2 20:33:38.63 41:20:12.23 0.48 7.18 4.53 320 0.90 32 96.0958 0.382 0.061 0.147 0.174 2.27 -0.33
892 203338.67+411234.0 20:33:38.67 41:12:34.06 0.45 5.54 2.20 152 0.90 10 88.2967 0.134 0.051 0.051 0.032 1.80 -0.01
893 203338.98+411933.4 20:33:38.99 41:19:33.43 0.24 6.78 7.61 184 0.83 75 96.5764 0.936 0.266 0.338 0.332 2.15 -0.50
894 203339.05+411435.8 20:33:39.05 41:14:35.84 0.31 5.06 4.13 103 0.90 26 97.7323 0.300 0.132 0.098 0.070 1.77 -0.39
895 203339.07+411925.7 20:33:39.07 41:19:25.79 0.23 6.71 7.98 147 0.80 81 94.6038 1.075 0.643 0.391 0.041 1.63 -0.33
896 203339.02+410833.8 20:33:39.02 41:08:33.86 0.34 8.18 8.81 546 0.90 102 95.7220 1.194 0.307 0.449 0.437 2.15 -0.71
897 203339.15+411359.3 20:33:39.16 41:13:59.37 0.47 5.16 2.54 125 0.91 12 83.9872 0.170 0.027 0.109 0.034 1.98 -0.48
898 203339.22+410648.2 20:33:39.23 41:06:48.24 0.62 9.65 5.26 621 0.79 42 96.2214 0.561 0.180 0.196 0.185 2.16 -0.15
899 203339.30+411558.5 20:33:39.30 41:15:58.57 0.40 5.18 2.92 104 0.89 15 75.6793 0.226 -0.008 0.054 0.180 3.44 -0.30
900 203339.52+411513.3 20:33:39.53 41:15:13.32 0.33 5.14 1.87 104 0.90 8 84.9955 0.105 0.006 0.032 0.067 2.96 -0.13
901 203339.47+410634.2 20:33:39.48 41:06:34.20 0.56 9.88 5.51 667 0.79 46 94.6918 0.622 0.096 0.109 0.417 3.28 -0.57
902 203339.64+411923.3 20:33:39.65 41:19:23.34 0.37 6.76 4.64 150 0.79 31 81.7320 0.493 0.161 0.192 0.139 1.99 -0.29
903 203339.64+411706.5 20:33:39.65 41:17: 6.51 0.16 5.56 10.19 142 0.91 126 95.3985 1.467 0.395 0.627 0.446 2.11 -0.55
904 203339.71+411524.9 20:33:39.71 41:15:24.95 0.38 5.18 3.39 107 0.90 19 87.7941 0.244 0.045 0.120 0.079 2.08 -0.10
905 203339.79+411641.1 20:33:39.79 41:16:41.16 0.30 5.44 4.15 119 0.89 26 89.2453 0.338 0.142 0.132 0.064 1.85 -0.10
906 203339.90+411532.8 20:33:39.91 41:15:32.86 0.32 5.23 4.34 109 0.90 28 94.4782 0.335 0.090 0.112 0.133 2.15 -0.20
907 203340.42+411445.7 20:33:40.42 41:14:45.70 0.33 5.31 1.88 35 0.63 7 85.2468 0.138 0.109 0.034 -0.005 1.54 -0.59
908 203340.59+411630.3 20:33:40.59 41:16:30.32 0.49 5.54 1.59 126 0.89 6 86.8361 0.085 0.017 0.005 0.062 5.04 -0.04
909 203340.66+411442.8 20:33:40.66 41:14:42.86 0.31 5.35 2.50 36 0.63 11 71.2034 0.256 0.019 0.131 0.106 2.01 -0.89
910 203340.74+411931.0 20:33:40.74 41:19:31.00 0.70 7.00 3.02 291 0.89 17 88.1208 0.223 0.063 0.086 0.074 2.04 -0.16
911 203340.74+411415.2 20:33:40.74 41:14:15.22 0.20 5.41 7.39 145 0.90 71 77.6079 1.020 0.245 0.320 0.454 2.42 -4.00 $\dag $
912 203340.91+410935.5 20:33:40.91 41:09:35.58 0.58 7.65 3.24 437 0.90 20 92.4931 0.249 0.134 0.067 0.048 1.66 -1.46 $\dag $
913 203341.03+412115.5 20:33:41.04 41:21:15.58 0.38 8.27 7.94 319 0.78 82 95.1284 1.116 0.156 0.521 0.439 2.40 -0.63
914 203340.97+410849.8 20:33:40.97 41:08:49.82 0.30 8.21 11.36 555 0.90 160 96.8873 1.836 0.746 0.684 0.406 1.93 -2.53 $\dag $
915 203341.19+411432.5 20:33:41.19 41:14:32.54 0.50 5.46 3.45 147 0.90 19 92.1256 0.240 0.126 0.090 0.024 1.66 -0.07
916 203341.27+411455.0 20:33:41.27 41:14:55.00 0.18 5.46 8.08 142 0.90 82 93.9254 0.980 0.088 0.383 0.509 2.88 -2.65
917 203341.27+411454.9 20:33:41.27 41:14:55.00 0.18 5.46 8.09 142 0.90 82 93.9254 0.980 0.088 0.383 0.509 2.88 -2.65
918 203341.38+411513.1 20:33:41.38 41:15:13.17 0.30 5.48 5.39 143 0.90 41 92.9925 0.490 0.030 0.065 0.395 4.29 -2.70
919 203341.35+410732.0 20:33:41.35 41:07:32.04 0.68 9.27 3.81 922 0.91 29 96.5544 0.333 0.228 0.052 0.052 1.29 -0.65
920 203341.52+411858.8 20:33:41.52 41:18:58.83 0.28 6.79 7.08 264 0.90 68 96.7366 0.783 0.202 0.375 0.206 2.12 -0.10
921 203341.50+411321.9 20:33:41.51 41:13:21.93 0.54 5.75 3.20 179 0.90 17 89.9489 0.214 0.080 0.094 0.040 1.88 -1.35
922 203341.60+411234.5 20:33:41.60 41:12:34.60 0.33 6.04 4.99 204 0.91 37 97.3334 0.423 0.066 0.240 0.117 2.17 -0.49
923 203341.84+411019.9 20:33:41.84 41:10:19.92 0.34 7.27 7.68 369 0.90 78 92.9611 0.943 0.309 0.341 0.293 1.99 -1.16
924 203341.94+412116.1 20:33:41.95 41:21:16.20 0.41 8.39 6.45 331 0.77 57 94.5881 0.786 0.092 0.163 0.531 3.41 -0.22
925 203341.93+411128.7 20:33:41.94 41:11:28.72 0.33 6.61 5.58 254 0.90 44 90.9257 0.553 0.319 0.163 0.070 1.63 -2.25 $\dag $
926 203341.99+411055.1 20:33:42.00 41:10:55.17 0.46 6.93 3.10 289 0.89 17 91.4063 0.221 0.061 0.100 0.059 2.18 -1.07
927 203342.18+410753.8 20:33:42.18 41:07:53.83 0.23 9.08 16.98 782 0.90 332 97.4370 3.813 3.539 0.215 0.058 0.99 -0.29
928 203342.25+411503.2 20:33:42.25 41:15: 3.24 0.16 5.64 10.12 158 0.90 124 95.8068 1.442 0.421 0.629 0.393 2.08 -0.21
929 203342.28+411145.8 20:33:42.29 41:11:45.82 0.46 6.52 3.69 244 0.90 23 90.8440 0.285 0.209 0.052 0.023 1.50 -0.05
930 203342.52+411456.4 20:33:42.52 41:14:56.43 0.71 5.70 2.28 163 0.90 10 86.6257 0.137 0.069 0.031 0.038 1.70 -0.05
931 203342.68+411734.5 20:33:42.69 41:17:34.58 0.38 6.27 5.01 206 0.90 37 94.5222 0.444 0.162 0.152 0.129 1.95 -0.24
932 203342.97+411237.0 20:33:42.98 41:12:37.08 0.38 6.26 5.07 223 0.90 38 84.2134 0.506 0.384 0.069 0.052 1.19 -0.68
933 203343.00+411504.3 20:33:43.00 41:15: 4.40 0.46 5.78 3.20 171 0.90 17 71.9855 0.274 0.067 0.083 0.124 2.23 -1.24 $\dag $
934 203343.26+411033.6 20:33:43.26 41:10:33.64 0.43 7.34 6.10 386 0.90 53 89.6253 0.660 0.162 0.282 0.217 2.31 -1.30 $\dag $
935 203343.47+411718.3 20:33:43.48 41:17:18.32 0.42 6.30 3.61 208 0.90 22 86.1357 0.294 0.083 0.163 0.049 2.12 -0.69
936 203343.47+411101.1 20:33:43.48 41:11: 1.10 0.66 7.10 3.32 349 0.90 19 95.4645 0.231 0.056 0.073 0.102 2.28 -0.98
937 203343.66+411002.3 20:33:43.67 41:10: 2.35 0.58 7.73 3.37 404 0.88 21 89.6693 0.274 0.111 0.080 0.083 1.83 -1.86
938 203343.80+410917.7 20:33:43.81 41:09:17.71 0.52 8.24 4.50 572 0.90 34 93.7024 0.403 0.118 0.163 0.122 1.95 -4.00 $\dag $
939 203343.98+411611.9 20:33:43.98 41:16:11.93 0.62 6.08 2.30 193 0.90 11 90.0996 0.141 0.026 0.054 0.062 1.85 -0.20
940 203344.14+411939.2 20:33:44.14 41:19:39.22 0.24 7.58 11.80 385 0.89 168 93.2343 2.029 0.420 0.792 0.817 2.28 -4.00 $\dag $
941 203344.34+410522.0 20:33:44.34 41:05:22.09 1.02 11.38 4.24 2070 0.91 38 96.4759 0.445 0.147 0.118 0.180 2.12 -0.48
942 203344.46+411052.5 20:33:44.47 41:10:52.58 0.41 7.34 5.88 392 0.91 49 95.2257 0.574 0.170 0.187 0.217 2.15 -0.08
943 203344.58+411444.6 20:33:44.59 41:14:44.66 0.34 6.09 5.29 201 0.91 40 91.3340 0.487 0.188 0.135 0.164 1.91 -0.05
944 203344.53+410821.3 20:33:44.54 41:08:21.33 0.71 9.01 4.10 758 0.89 31 93.9222 0.373 0.195 0.085 0.093 1.67 -0.18
945 203344.61+410906.2 20:33:44.62 41:09: 6.23 0.35 8.49 9.96 626 0.90 125 90.5017 1.546 0.355 0.627 0.564 2.34 -4.00 $\dag $
946 203344.69+411419.8 20:33:44.69 41:14:19.82 0.40 6.14 3.06 210 0.90 17 93.4888 0.202 0.040 0.084 0.078 2.65 -0.40
947 203344.67+411002.2 20:33:44.68 41:10: 2.28 0.39 7.87 7.74 435 0.88 80 91.6230 1.000 0.179 0.423 0.397 2.65 -0.25
948 203344.88+411344.6 20:33:44.88 41:13:44.69 0.48 6.27 3.46 225 0.89 21 93.1370 0.253 0.059 0.083 0.111 2.53 -0.03
949 203344.91+411331.4 20:33:44.91 41:13:31.48 0.33 6.32 6.23 232 0.89 54 94.1735 0.648 0.245 0.247 0.155 1.95 -0.04
950 203345.00+412114.7 20:33:45.00 41:21:14.76 0.76 8.76 4.20 772 0.90 31 95.2634 0.369 0.177 0.143 0.049 1.70 -0.24
951 203345.06+412132.6 20:33:45.07 41:21:32.61 0.79 8.98 4.76 893 0.90 37 93.8343 0.445 0.186 0.044 0.215 2.80 -0.48
952 203345.29+411503.8 20:33:45.29 41:15: 3.82 0.34 6.22 4.31 211 0.90 29 80.6107 0.410 0.096 0.133 0.181 2.63 -4.00 $\dag $
953 203345.38+411731.2 20:33:45.38 41:17:31.27 0.38 6.72 3.56 152 0.80 21 92.5056 0.288 0.123 0.085 0.080 1.80 -1.24 $\dag $
954 203345.41+411621.7 20:33:45.41 41:16:21.72 0.58 6.38 2.45 224 0.90 12 85.9598 0.161 0.063 0.081 0.017 1.82 -0.03
955 203345.40+411430.7 20:33:45.40 41:14:30.76 0.52 6.26 3.22 218 0.90 18 75.7829 0.269 0.021 0.074 0.173 3.00 -0.16
956 203345.47+412018.2 20:33:45.48 41:20:18.25 0.49 8.19 4.86 542 0.90 38 90.7749 0.469 0.206 0.140 0.123 1.91 -0.24
957 203345.38+410936.4 20:33:45.39 41:09:36.42 0.44 8.25 7.15 572 0.90 71 94.2646 0.838 0.178 0.330 0.331 2.21 -0.09
958 203345.64+411400.7 20:33:45.64 41:14: 0.74 0.47 6.36 3.66 234 0.89 22 94.4939 0.273 0.129 0.070 0.074 1.70 -0.69
959 203345.84+411726.1 20:33:45.84 41:17:26.12 0.28 6.77 6.70 155 0.80 60 92.1664 0.820 0.041 0.154 0.625 3.93 -0.55
960 203345.95+410850.5 20:33:45.96 41:08:50.57 0.68 8.85 4.30 720 0.89 33 96.4633 0.387 0.213 0.094 0.081 1.58 -0.47 $\dag $
961 203346.31+411629.9 20:33:46.32 41:16:29.92 0.61 6.58 2.65 244 0.90 14 91.3026 0.172 0.047 0.050 0.074 2.65 -0.31
962 203346.47+411609.9 20:33:46.48 41:16: 9.92 0.41 6.54 4.25 239 0.90 28 94.0636 0.339 0.094 0.096 0.148 2.59 -0.38
963 203346.50+411812.9 20:33:46.50 41:18:12.96 0.62 7.19 3.08 318 0.89 18 90.8566 0.233 0.113 0.108 0.012 1.77 -0.16
964 203346.83+411354.7 20:33:46.83 41:13:54.73 0.36 6.60 6.33 267 0.89 55 92.8009 0.668 0.241 0.183 0.244 1.96 -2.98
965 203346.79+410801.0 20:33:46.79 41:08: 1.06 0.55 9.55 6.44 1023 0.91 65 95.6938 0.756 0.400 0.147 0.209 1.64 -0.64 $\dag $
966 203346.84+411048.2 20:33:46.85 41:10:48.25 0.75 7.75 2.90 463 0.90 17 93.9411 0.202 0.025 0.058 0.119 3.07 -0.40
967 203346.97+411146.3 20:33:46.97 41:11:46.35 0.40 7.29 5.65 359 0.89 47 91.8869 0.579 0.188 0.210 0.181 2.18 -0.01
968 203347.04+412005.6 20:33:47.04 41:20: 5.64 0.48 8.28 6.83 561 0.90 64 97.3145 0.743 0.220 0.241 0.282 2.08 -2.01
969 203347.04+410952.6 20:33:47.04 41:09:52.67 0.76 8.32 2.14 586 0.90 13 95.7660 0.152 0.067 0.039 0.047 2.28 -0.90
970 203347.20+411316.7 20:33:47.20 41:13:16.72 0.57 6.80 2.69 303 0.90 14 93.6835 0.175 0.173 -0.002 0.004 1.34 -0.02
971 203347.77+412040.9 20:33:47.78 41:20:40.99 0.51 8.76 5.71 686 0.90 50 95.9702 0.588 0.198 0.270 0.120 1.96 -0.41
972 203347.92+411537.5 20:33:47.93 41:15:37.54 0.62 6.74 2.41 263 0.89 12 81.5153 0.174 0.082 0.078 0.014 1.70 -0.36
973 203347.98+411910.1 20:33:47.99 41:19:10.20 0.51 7.90 4.23 484 0.90 31 92.4994 0.373 0.114 0.148 0.111 2.05 -1.29
974 203348.10+411842.3 20:33:48.11 41:18:42.34 0.50 7.69 5.80 406 0.89 48 95.8445 0.570 0.143 0.199 0.228 2.17 -1.46
975 203348.20+411346.2 20:33:48.20 41:13:46.27 0.41 6.88 5.52 310 0.90 44 95.3608 0.526 0.003 0.139 0.384 3.57 -0.10
976 203348.24+411032.8 20:33:48.24 41:10:32.88 0.68 8.11 4.42 534 0.89 32 96.7240 0.371 0.304 0.036 0.031 0.99 -0.01
977 203348.63+411824.4 20:33:48.63 41:18:24.48 0.57 7.64 3.95 397 0.89 27 97.4496 0.311 0.130 0.125 0.056 1.80 -0.07
978 203348.84+412108.0 20:33:48.85 41:21: 8.10 0.77 9.21 3.44 929 0.90 25 96.3722 0.289 0.120 0.085 0.084 1.83 -1.19
979 203348.87+411940.2 20:33:48.87 41:19:40.26 0.40 8.31 7.49 572 0.90 77 94.4216 0.912 0.197 0.345 0.370 2.37 -4.00
980 203348.91+411410.4 20:33:48.91 41:14:10.46 0.58 6.95 1.96 316 0.90 9 89.4180 0.115 0.012 0.028 0.075 3.72 -0.60
981 203349.31+411634.3 20:33:49.31 41:16:34.32 0.63 7.14 3.64 344 0.90 23 95.1472 0.275 0.050 0.079 0.146 2.83 -0.06
982 203349.32+411021.8 20:33:49.33 41:10:21.87 0.80 8.38 3.85 608 0.90 27 88.2276 0.343 0.058 0.161 0.124 2.27 -0.06
983 203349.51+411148.6 20:33:49.52 41:11:48.62 0.54 7.71 5.50 470 0.90 46 91.1330 0.568 0.137 0.225 0.206 2.37 -1.02 $\dag $
984 203350.36+411416.3 20:33:50.37 41:14:16.33 0.60 7.21 3.33 376 0.90 19 94.6886 0.234 0.114 0.084 0.036 1.72 -0.00
985 203350.47+411803.1 20:33:50.47 41:18: 3.13 0.58 7.80 4.05 458 0.90 29 91.1739 0.360 0.068 0.142 0.150 2.34 -0.01
986 203350.82+411616.1 20:33:50.82 41:16:16.11 0.54 7.36 4.08 355 0.89 28 90.4891 0.350 0.092 0.103 0.155 2.33 -0.31
987 203350.79+410857.4 20:33:50.79 41:08:57.44 0.85 9.45 3.48 1276 0.91 27 94.9022 0.319 0.079 0.151 0.090 2.07 -0.03
988 203351.21+412029.2 20:33:51.21 41:20:29.26 0.95 9.14 2.26 782 0.89 14 89.9803 0.178 0.050 0.070 0.058 1.98 -0.11
989 203351.48+411358.4 20:33:51.49 41:13:58.41 0.71 7.45 3.14 430 0.90 18 96.8088 0.217 0.150 0.021 0.046 1.44 -0.20
990 203351.65+411539.0 20:33:51.65 41:15:39.06 0.77 7.44 1.99 398 0.90 10 86.5220 0.134 0.046 0.062 0.026 2.18 -0.35
991 203352.84+411558.8 20:33:52.84 41:15:58.86 0.62 7.69 3.67 443 0.90 24 92.3454 0.296 0.115 0.124 0.056 1.77 -0.02
992 203353.10+411118.8 20:33:53.10 41:11:18.89 0.57 8.53 6.42 898 0.90 64 96.2371 0.743 0.672 0.066 0.005 1.03 -0.52
993 203353.58+411754.9 20:33:53.58 41:17:54.96 0.56 8.30 5.07 562 0.90 42 96.8622 0.485 0.189 0.156 0.140 1.85 -0.19
994 203353.89+412004.0 20:33:53.90 41:20: 4.09 0.85 9.32 2.85 920 0.91 20 87.1754 0.254 0.104 0.083 0.068 1.99 -0.04
995 203354.19+411340.1 20:33:54.20 41:13:40.18 0.82 8.00 3.13 527 0.89 19 90.2127 0.245 0.124 0.060 0.061 1.69 -1.41 $\dag $
996 203355.18+411419.7 20:33:55.19 41:14:19.72 0.59 8.10 4.59 598 0.90 34 91.1330 0.424 0.135 0.106 0.182 2.50 -0.16
997 203355.54+411851.4 20:33:55.55 41:18:51.41 0.55 9.00 6.42 812 0.91 60 91.7110 0.731 0.298 0.255 0.179 1.89 -0.08
998 203356.32+412038.9 20:33:56.32 41:20:38.94 0.85 10.02 3.99 1170 0.90 31 94.8206 0.370 0.184 0.089 0.097 1.77 -0.49
999 203357.91+411803.1 20:33:57.92 41:18: 3.13 0.42 9.11 8.41 781 0.89 96 95.3734 1.137 0.036 0.280 0.821 3.61 -0.29
1000 203358.41+412055.7 20:33:58.42 41:20:55.79 0.33 10.50 16.38 1465 0.89 321 97.2768 3.709 1.247 1.301 1.162 2.05 -4.00 $\dag $
1001 203359.65+411737.2 20:33:59.66 41:17:37.24 0.68 9.29 6.66 1132 0.90 67 93.7715 0.800 0.535 0.162 0.103 1.45 -0.22
1002 203401.23+412010.4 20:34: 1.24 41:20:10.43 0.46 10.55 10.87 1446 0.90 158 96.8591 1.808 1.610 0.098 0.101 1.01 -0.69
1003 203401.44+411905.4 20:34: 1.44 41:19: 5.49 0.67 10.11 6.56 1541 0.90 68 94.4593 0.801 0.348 0.268 0.185 1.79 -0.19


   
Table 2: Near-IR counterparts of Cygnus OB2 X-ray sources and near-IR stellar parameters.
$N_{\rm x}$ X-ray - 2MASS counterpart Off. 2MASS photometry $A_{\rm v}$
# CXOAC J+ 2MASS J+ ('') J H $K_{\rm s}$ Ph. qual (mag)
1 203225.09+411019.6 - - - - - - -
2 203225.55+410847.3 20322545+4108473 1.56 14.76 $\pm$ 0.06 14.23 $\pm$ 0.07 13.95 $\pm$ 0.07 AAA 8.54
3 203225.97+411054.7 20322597+4110547 0.24 15.24 $\pm$ 0.05 13.65 $\pm$ 0.03 12.69 $\pm$ 0.03 AAA 7.71
4 203227.51+411358.3 20322756+4114001 1.61 16.00 $\pm$ 0.06 14.46 $\pm$ 0.04 13.90 $\pm$ 0.06 AAA 0.16
5 203227.62+410831.4 20322754+4108336 2.41 15.91 $\pm$ 0.06 14.39 $\pm$ 0.03 13.82 $\pm$ 0.05 AAA N/A
6 203227.70+411317.0 20322768+4113169 0.58 14.96 $\pm$ 0.03 13.49 $\pm$ 0.02 12.88 $\pm$ 0.03 AAA 2.21
7 203228.88+410807.5 - - - - - - -
8 203229.12+411400.7 20322913+4114012 0.26 16.74 $\pm$ 0.16 15.36 $\pm$ 0.08 14.72 $\pm$ 0.11 CAB 9.01
9 203229.26+410850.1 20322928+4108494 1.03 12.26 $\pm$ 0.01 11.49 $\pm$ 0.01 11.07 $\pm$ 0.01 AAA 8.52
10 203229.84+411454.2 20322985+4114536 0.83 17.44 15.43 $\pm$ 0.10 14.37 $\pm$ 0.09 UAA N/A
11 203229.91+411056.0 20322994+4110575 1.29 15.26 $\pm$ 0.05 14.04 $\pm$ 0.04 13.53 $\pm$ 0.04 AAA N/A
12 203230.63+410829.1 20323051+4108284 2.19 15.47 $\pm$ 0.07 13.71 13.09 AUU 4.19
13 203230.63+410854.8 20323064+4108565 1.49 15.31 $\pm$ 0.05 13.68 $\pm$ 0.03 13.01 $\pm$ 0.03 AAA 5.43
14 203230.88+411029.5 - - - - - - -
15 203231.39+410955.9 20323143+4109558 0.58 14.52 $\pm$ 0.05 13.04 12.46 AUU 9.69
16 203231.42+411335.0 - - - - - - -
17 203231.53+411407.9 20323154+4114082 0.11 7.82 $\pm$ 0.01 7.09 $\pm$ 0.02 6.66 $\pm$ 0.01 AAA 4.66
18 203231.58+411712.5 - - - - - - -
19 203232.32+411507.3 20323242+4115082 1.70 16.41 $\pm$ 0.10 14.62 $\pm$ 0.05 13.69 $\pm$ 0.05 BAA 4.87
20 203232.44+411312.3 20323249+4113131 0.80 14.29 $\pm$ 0.02 13.25 $\pm$ 0.02 12.70 $\pm$ 0.03 AAA 9.17
21 203233.28+411058.8 20323346+4110594 2.65 11.70 $\pm$ 0.01 11.50 $\pm$ 0.02 11.44 $\pm$ 0.02 AAA 10.45
22 203233.47+411218.0 20323349+4112184 0.19 13.48 $\pm$ 0.02 12.49 $\pm$ 0.02 12.00 $\pm$ 0.02 AAA 8.33
23 203233.53+411405.7 20323351+4114056 0.63 13.28 $\pm$ 0.02 12.48 $\pm$ 0.01 12.09 $\pm$ 0.02 AAA N/A
24 203234.33+411506.3 - - - - - - -
25 203234.45+411154.7 20323447+4111552 0.39 14.69 $\pm$ 0.03 13.26 $\pm$ 0.02 12.68 $\pm$ 0.03 AAA 7.21
26 203235.17+411143.4 20323518+4111432 0.45 14.85 $\pm$ 0.03 13.47 $\pm$ 0.02 12.97 $\pm$ 0.03 AAA 7.73
27 203235.65+411509.5 20323564+4115097 0.33 10.85 $\pm$ 0.02 10.19 $\pm$ 0.02 9.85 $\pm$ 0.03 AAA N/A
28 203235.86+411248.4 20323592+4112505 2.08 15.81 $\pm$ 0.07 13.58 12.95 AUU 4.18
29 203235.96+412135.6 20323599+4121363 0.55 15.08 $\pm$ 0.03 13.99 $\pm$ 0.02 13.53 $\pm$ 0.04 AAA N/A
30 203236.32+411900.7 20323641+4119010 1.32 15.96 $\pm$ 0.09 14.63 $\pm$ 0.08 14.12 $\pm$ 0.08 AAA N/A
31 203236.38+411831.0 20323629+4118308 1.51 15.52 $\pm$ 0.06 14.35 $\pm$ 0.07 13.90 $\pm$ 0.05 AAA N/A
32 203236.50+411810.3 20323643+4118103 1.13 16.24 $\pm$ 0.09 14.96 $\pm$ 0.07 14.77 $\pm$ 0.12 AAB 9.19
33 203236.62+412214.5 20323661+4122147 0.22 12.11 $\pm$ 0.02 11.34 $\pm$ 0.01 10.88 $\pm$ 0.02 AAA N/A
34 203236.86+411944.6 20323680+4119447 1.00 15.45 $\pm$ 0.06 14.23 $\pm$ 0.05 13.76 $\pm$ 0.06 AAA 10.11
35 203236.84+412146.1 - - - - - - -
36 203237.55+411150.8 20323754+4111514 0.39 13.34 $\pm$ 0.02 12.82 $\pm$ 0.02 12.64 $\pm$ 0.03 AAA 9.77
37 203237.53+411712.4 20323751+4117121 0.65 17.36 15.86 $\pm$ 0.13 15.83 UBU 19.97
38 203237.71+411405.3 20323767+4114052 0.86 13.42 $\pm$ 0.02 12.16 $\pm$ 0.02 11.61 $\pm$ 0.02 AAA 6.76
39 203237.83+412208.7 20323784+4122087 0.20 15.16 $\pm$ 0.04 14.07 $\pm$ 0.04 13.65 $\pm$ 0.05 AAA 17.08
40 203237.87+412119.0 20323787+4121194 0.19 14.37 $\pm$ 0.02 13.21 $\pm$ 0.02 12.81 $\pm$ 0.03 AAA 6.26
41 203237.94+411502.7 20323781+4115026 2.11 15.05 $\pm$ 0.05 14.01 $\pm$ 0.04 13.47 $\pm$ 0.05 AAA N/A
42 203238.10+410833.1 20323804+4108316 1.94 15.57 $\pm$ 0.05 14.08 $\pm$ 0.03 13.43 $\pm$ 0.04 AAA N/A
43 203238.10+411244.4 20323810+4112442 0.49 15.45 $\pm$ 0.06 14.23 $\pm$ 0.03 13.64 $\pm$ 0.05 AAA 8.73
44 203238.07+412313.8 20323799+4123138 1.25 13.76 12.78 $\pm$ 0.03 12.35 UAU 17.96
45 203238.26+411141.7 20323830+4111422 0.49 16.04 $\pm$ 0.08 14.48 $\pm$ 0.04 13.96 $\pm$ 0.06 AAA 7.88
46 203238.43+411201.1 - - - - - - -
47 203238.56+411422.0 - - - - - - -
48 203239.41+411906.3 20323944+4119066 0.22 14.95 $\pm$ 0.04 13.86 $\pm$ 0.03 13.56 $\pm$ 0.04 AAA 2.94
49 203239.52+411112.5 20323951+4111129 0.17 14.98 $\pm$ 0.03 13.48 $\pm$ 0.03 12.90 $\pm$ 0.03 AAA 3.81
50 203239.82+412358.2 20323986+4123595 1.21 14.78 $\pm$ 0.03 13.58 $\pm$ 0.03 13.18 $\pm$ 0.03 AAA 10.87
51 203239.90+411348.1 20323989+4113488 0.52 16.49 $\pm$ 0.14 15.26 $\pm$ 0.09 15.05 $\pm$ 0.20 BAC 8.51
52 203240.12+411034.7 20324009+4110346 0.52 11.78 $\pm$ 0.02 11.04 $\pm$ 0.02 10.64 $\pm$ 0.01 AAA N/A
53 203240.07+412201.7 20324004+4122015 0.74 16.10 $\pm$ 0.09 14.65 $\pm$ 0.05 14.26 $\pm$ 0.08 AAA 5.71
54 203240.22+412244.7 20324032+4122473 2.64 15.49 14.33 14.37 $\pm$ 0.09 UUA 8.10
55 203240.26+411740.9 20324026+4117408 0.29 15.63 $\pm$ 0.06 14.29 $\pm$ 0.04 13.86 $\pm$ 0.06 AAA 6.17
56 203240.59+411454.8 20324061+4114548 0.23 15.35 $\pm$ 0.18 12.73 11.92 CUU 6.59
57 203240.65+411111.6 20324063+4111113 0.69 16.58 $\pm$ 0.13 14.81 $\pm$ 0.06 14.23 $\pm$ 0.08 BAA 5.18
58 203240.72+412106.1 20324067+4121059 0.99 14.81 $\pm$ 0.04 13.73 $\pm$ 0.04 13.39 $\pm$ 0.04 AAA 5.91
59 203240.81+411720.2 20324077+4117208 0.86 15.41 $\pm$ 0.05 14.20 $\pm$ 0.06 13.82 $\pm$ 0.06 AAA 7.40
60 203240.94+411428.8 20324096+4114291 0.11 4.67 $\pm$ 0.32 3.51 $\pm$ 0.26 2.70 $\pm$ 0.36 DDD N/A
61 203240.96+411551.0 20324094+4115511 0.47 13.47 $\pm$ 0.02 12.65 $\pm$ 0.02 12.18 $\pm$ 0.02 AAA 1.34
62 203240.97+411449.6 - - - - - - -
63 203241.06+411955.2 20324109+4119552 0.40 14.51 $\pm$ 0.03 13.54 $\pm$ 0.03 13.16 $\pm$ 0.04 AAA 12.07
64 203241.33+411849.9 20324133+4118501 0.23 12.95 $\pm$ 0.02 12.01 $\pm$ 0.02 11.60 $\pm$ 0.02 AAA 7.06
65 203241.55+411154.7 - - - - - - -
66 203241.61+411549.0 20324158+4115486 0.78 15.89 14.73 14.96 $\pm$ 0.15 UUB 5.50
67 203241.66+411406.5 - - - - - - -
68 203241.87+411555.9 20324185+4115557 0.53 16.24 $\pm$ 0.10 14.82 $\pm$ 0.06 14.30 $\pm$ 0.09 AAA N/A
69 203242.15+411712.2 20324210+4117122 0.91 16.69 $\pm$ 0.13 15.42 $\pm$ 0.09 14.81 $\pm$ 0.14 BAB 5.47
70 203242.18+411641.4 20324216+4116412 0.65 15.30 $\pm$ 0.05 14.02 $\pm$ 0.04 13.61 $\pm$ 0.05 AAA 6.83
71 203242.46+412236.6 20324235+4122360 1.94 14.58 $\pm$ 0.03 13.48 $\pm$ 0.03 13.10 $\pm$ 0.04 AAA 4.50
72 203242.88+412016.5 20324289+4120164 0.36 10.68 $\pm$ 0.02 10.21 $\pm$ 0.01 10.00 $\pm$ 0.01 AAA N/A
73 203242.86+412343.1 20324290+4123437 0.55 13.01 $\pm$ 0.02 12.14 $\pm$ 0.02 11.82 $\pm$ 0.02 AAA 7.64
74 203242.91+411914.4 20324288+4119148 0.58 15.03 $\pm$ 0.04 13.82 $\pm$ 0.04 13.37 $\pm$ 0.04 AAA 6.01
75 203243.03+411741.1 20324313+4117417 1.39 15.65 14.66 $\pm$ 0.06 14.02 UAU 7.77
76 203243.01+412309.3 20324298+4123107 1.31 14.90 $\pm$ 0.03 13.74 $\pm$ 0.03 13.32 $\pm$ 0.04 AAA N/A
77 203243.09+411359.3 20324307+4113594 0.35 15.26 $\pm$ 0.04 13.71 $\pm$ 0.04 13.39 $\pm$ 0.04 AAA 1.09
78 203243.10+411750.9 - - - - - - -
79 203243.34+411514.1 - - - - - - -
80 203243.34+411657.1 - - - - - - -
81 203243.40+411102.9 20324342+4111034 0.31 16.44 $\pm$ 0.11 14.78 $\pm$ 0.06 14.24 $\pm$ 0.08 BAA 8.43
82 203243.95+411709.9 20324393+4117101 0.33 16.61 $\pm$ 0.14 15.32 $\pm$ 0.09 14.70 $\pm$ 0.12 BAB N/A
83 203244.22+411615.7 20324426+4116162 0.53 16.39 $\pm$ 0.10 15.03 $\pm$ 0.06 14.59 $\pm$ 0.11 BAA 12.29
84 203244.31+411743.8 20324427+4117436 0.78 16.02 $\pm$ 0.08 14.75 $\pm$ 0.08 14.18 $\pm$ 0.08 AAA N/A
85 203244.35+411445.3 20324431+4114453 0.81 14.85 $\pm$ 0.03 13.45 $\pm$ 0.01 12.91 $\pm$ 0.03 AAA 1.97
86 203244.42+411122.9 20324443+4111236 0.51 12.56 $\pm$ 0.01 11.69 $\pm$ 0.01 11.25 $\pm$ 0.01 AAA N/A
87 203244.71+410701.4 20324468+4106596 2.11 14.16 $\pm$ 0.02 12.89 $\pm$ 0.02 12.35 $\pm$ 0.02 AAA 5.27
88 203244.74+411305.4 20324475+4113057 0.02 12.10 $\pm$ 0.02 11.23 $\pm$ 0.01 10.81 $\pm$ 0.02 AAA N/A
89 203244.81+411227.4 20324480+4112281 0.51 13.57 $\pm$ 0.02 12.27 $\pm$ 0.01 11.59 $\pm$ 0.02 AAA 8.51
90 203244.82+411549.0 20324480+4115484 0.98 15.79 $\pm$ 0.08 14.49 $\pm$ 0.07 14.06 $\pm$ 0.07 AAA N/A
91 203244.85+411419.1 - - - - - - -
92 203244.83+411848.1 20324484+4118484 0.09 15.45 $\pm$ 0.06 14.16 $\pm$ 0.05 13.81 $\pm$ 0.05 AAA 8.30
93 203244.90+411519.8 20324492+4115203 0.33 14.08 $\pm$ 0.03 12.64 $\pm$ 0.02 12.00 $\pm$ 0.02 AAA 6.55
94 203244.86+412350.5 20324478+4123519 1.72 12.74 $\pm$ 0.02 12.05 $\pm$ 0.02 11.72 $\pm$ 0.02 AAA N/A
95 203245.08+411247.3 20324510+4112485 0.99 16.29 $\pm$ 0.10 14.92 $\pm$ 0.06 14.15 $\pm$ 0.07 AAA 18.57
96 203245.08+411725.6 - - - - - - -
97 203245.24+411221.2 20324523+4112209 0.59 16.06 $\pm$ 0.08 14.51 $\pm$ 0.04 13.65 $\pm$ 0.05 AAA 7.34
98 203245.30+411721.1 20324529+4117209 0.51 16.77 15.41 $\pm$ 0.10 14.59 UAU 8.24
99 203245.49+411546.9 20324542+4115465 1.28 15.48 $\pm$ 0.05 14.16 $\pm$ 0.05 13.68 $\pm$ 0.05 AAA 9.18
100 203245.59+411659.2 - - - - - - -
101 203245.64+411647.1 20324569+4116473 0.65 16.05 $\pm$ 0.08 14.47 $\pm$ 0.04 13.66 $\pm$ 0.05 AAA N/A
102 203245.76+411349.7 20324577+4113497 0.16 15.10 $\pm$ 0.05 13.66 $\pm$ 0.06 13.18 $\pm$ 0.05 AAA 9.22
103 203245.81+411502.9 20324583+4115028 0.36 15.75 $\pm$ 0.06 14.48 $\pm$ 0.05 14.13 $\pm$ 0.07 AAA 5.21
104 203245.79+412108.2 20324580+4121083 0.08 12.18 $\pm$ 0.02 11.53 $\pm$ 0.02 11.21 $\pm$ 0.01 AAA 3.24
105 203245.91+411238.7 20324589+4112383 0.76 15.41 $\pm$ 0.05 14.14 $\pm$ 0.03 13.70 $\pm$ 0.05 AAA N/A
106 203246.14+411040.1 20324624+4110396 1.70 14.57 $\pm$ 0.04 12.91 $\pm$ 0.03 11.10 AAU 15.25
107 203246.27+410713.3 20324630+4107141 0.74 14.62 $\pm$ 0.03 13.42 $\pm$ 0.03 12.93 $\pm$ 0.03 AAA N/A
108 203246.31+411107.8 20324634+4111076 0.53 11.74 $\pm$ 0.02 11.07 $\pm$ 0.02 10.71 $\pm$ 0.02 AAA 8.01
109 203246.36+411652.9 20324651+4116534 2.10 15.01 $\pm$ 0.04 14.35 $\pm$ 0.05 14.15 $\pm$ 0.08 AAA 4.54
110 203246.41+411301.8 - - - - - - -
111 203246.66+411808.5 20324666+4118085 0.23 16.34 $\pm$ 0.10 14.87 $\pm$ 0.06 14.47 $\pm$ 0.09 AAA 2.43
112 203246.70+411316.3 - - - - - - -
113 203246.86+411742.8 20324681+4117442 1.48 16.15 $\pm$ 0.11 13.84 13.30 BUU 6.14
114 203246.91+412118.7 20324678+4121197 2.24 16.16 $\pm$ 0.13 14.96 $\pm$ 0.10 14.55 $\pm$ 0.11 BAA 7.89
115 203247.40+411251.1 20324744+4112513 0.44 15.68 $\pm$ 0.05 14.13 $\pm$ 0.04 13.54 $\pm$ 0.04 AAA 1.29
116 203247.47+411211.7 - - - - - - -
117 203247.81+411334.8 20324778+4113363 1.37 16.38 $\pm$ 0.10 15.18 $\pm$ 0.09 14.73 $\pm$ 0.12 BAB 3.72
118 203247.87+411632.3 20324781+4116324 1.01 15.37 $\pm$ 0.04 14.11 $\pm$ 0.03 13.47 $\pm$ 0.04 AAA 5.52
119 203247.98+411653.9 20324801+4116542 0.33 16.10 $\pm$ 0.08 14.72 $\pm$ 0.06 14.36 $\pm$ 0.09 AAA N/A
120 203248.18+411352.1 - - - - - - -
121 203248.25+411229.1 - - - - - - -
122 203248.43+411439.4 20324844+4114396 0.06 15.99 $\pm$ 0.10 14.55 $\pm$ 0.07 13.96 $\pm$ 0.06 AAA 4.81
123 203248.47+411608.2 20324845+4116080 0.57 12.25 $\pm$ 0.02 11.67 $\pm$ 0.02 11.32 $\pm$ 0.02 AAA 5.69
124 203248.53+412336.2 20324844+4123366 1.45 14.23 $\pm$ 0.02 13.14 $\pm$ 0.02 12.78 $\pm$ 0.03 AAA N/A
125 203248.63+410811.6 20324860+4108117 0.45 15.34 $\pm$ 0.05 13.97 $\pm$ 0.03 13.51 $\pm$ 0.04 AAA 8.14
126 203248.87+411519.8 20324891+4115197 0.54 14.81 $\pm$ 0.03 13.55 $\pm$ 0.02 12.97 $\pm$ 0.03 AAA 8.46
127 203248.91+410930.4 - - - - - - -
128 203249.02+410746.8 20324901+4107462 0.88 15.81 $\pm$ 0.06 14.40 $\pm$ 0.05 13.85 $\pm$ 0.05 AAA N/A
129 203249.39+411230.6 20324937+4112307 0.37 16.10 $\pm$ 0.09 14.99 $\pm$ 0.06 14.41 $\pm$ 0.09 AAA 6.50
130 203249.38+411606.8 20324938+4116072 0.23 16.62 $\pm$ 0.12 15.36 $\pm$ 0.10 14.66 $\pm$ 0.11 BAB 11.75
131 203249.34+412224.5 20324939+4122247 0.66 14.98 $\pm$ 0.04 13.85 $\pm$ 0.04 13.40 $\pm$ 0.04 AAA N/A
132 203249.51+411532.8 20324954+4115329 0.24 13.48 $\pm$ 0.02 12.67 $\pm$ 0.02 12.25 $\pm$ 0.02 AAA 7.43
133 203249.85+412342.2 - - - - - - -
134 203249.92+411511.1 20324998+4115117 0.83 16.04 $\pm$ 0.07 14.69 $\pm$ 0.04 14.11 $\pm$ 0.07 AAA 8.60
135 203250.08+411626.7 20325011+4116270 0.33 16.62 $\pm$ 0.12 15.31 $\pm$ 0.09 13.56 BAU 4.27
136 203250.11+411458.1 20325012+4114586 0.28 15.94 $\pm$ 0.17 14.39 $\pm$ 0.10 13.57 $\pm$ 0.06 CAA N/A
137 203250.16+411836.1 20325014+4118362 0.45 15.46 $\pm$ 0.05 14.32 $\pm$ 0.04 13.80 AAU 3.45
138 203250.25+412216.6 - - - - - - -
139 203250.39+411038.2 20325037+4110378 0.67 16.21 $\pm$ 0.09 14.90 $\pm$ 0.06 14.41 $\pm$ 0.09 AAA N/A
140 203250.41+411749.5 20325043+4117497 0.22 15.06 $\pm$ 0.04 13.61 $\pm$ 0.03 13.13 $\pm$ 0.04 AAA N/A
141 203250.42+411629.6 20325039+4116296 0.58 14.77 $\pm$ 0.03 13.57 $\pm$ 0.03 13.01 AAU N/A
142 203250.69+410825.3 20325069+4108258 0.34 10.62 $\pm$ 0.02 9.89 $\pm$ 0.01 9.52 $\pm$ 0.01 AAA 7.23
143 203250.69+411609.1 - - - - - - -
144 203250.87+411145.6 20325089+4111461 0.39 13.30 12.74 $\pm$ 0.04 12.34 $\pm$ 0.03 UAA 3.71
145 203250.98+411245.6 - - - - - - -
146 203251.13+411253.5 - - - - - - -
147 203251.14+411237.7 20325116+4112380 0.11 15.45 $\pm$ 0.04 14.15 $\pm$ 0.04 13.65 $\pm$ 0.05 AAA 9.33
148 203251.15+412026.1 20325114+4120253 1.08 14.94 13.80 13.43 $\pm$ 0.05 UUA 6.03
149 203251.15+412245.8 20325136+4122470 3.25 14.80 13.64 $\pm$ 0.04 13.32 UAU N/A
150 203251.35+411123.7 - - - - - - -
151 203251.34+411617.2 - - - - - - -
152 203251.36+411409.0 20325136+4114092 0.06 12.77 $\pm$ 0.02 11.96 $\pm$ 0.02 11.58 $\pm$ 0.02 AAA 8.54
153 203251.55+411300.7 20325156+4113010 0.10 14.78 $\pm$ 0.03 13.97 $\pm$ 0.04 13.80 $\pm$ 0.05 AAA N/A
154 203251.52+412037.7 20325156+4120379 0.44 16.06 $\pm$ 0.08 14.66 $\pm$ 0.06 13.90 $\pm$ 0.06 AAA 17.45
155 203251.70+411710.9 20325177+4117129 1.99 16.26 $\pm$ 0.09 15.19 $\pm$ 0.08 14.28 AAU 7.03
156 203252.00+411600.7 - - - - - - -
157 203252.11+411313.5 20325212+4113135 0.26 16.76 $\pm$ 0.14 15.35 $\pm$ 0.09 14.63 $\pm$ 0.11 CAB 3.30
158 203252.12+411828.6 20325210+4118289 0.46 15.51 $\pm$ 0.05 14.08 $\pm$ 0.04 13.63 $\pm$ 0.05 AAA N/A
159 203252.17+411815.7 20325218+4118160 0.16 13.13 $\pm$ 0.02 12.41 $\pm$ 0.02 12.05 $\pm$ 0.02 AAA 6.28
160 203252.41+411029.8 20325244+4110296 0.48 13.51 $\pm$ 0.02 12.59 $\pm$ 0.02 12.20 $\pm$ 0.02 AAA N/A
161 203252.47+411541.3 20325249+4115426 1.14 16.57 $\pm$ 0.13 15.12 $\pm$ 0.07 14.57 $\pm$ 0.10 BAA N/A
162 203252.52+411736.5 - - - - - - -
163 203252.59+411255.2 - - - - - - -
164 203252.60+412102.5 20325261+4121027 0.12 15.35 $\pm$ 0.05 14.20 $\pm$ 0.03 13.70 $\pm$ 0.05 AAA N/A
165 203252.69+411019.4 20325266+4110193 0.74 14.05 $\pm$ 0.03 12.83 $\pm$ 0.02 12.40 $\pm$ 0.02 AAA 4.74
166 203252.84+411955.0 20325283+4119550 0.27 13.23 $\pm$ 0.02 12.56 $\pm$ 0.02 12.23 $\pm$ 0.02 AAA 7.75
167 203253.12+411559.0 20325310+4115589 0.50 12.93 $\pm$ 0.02 12.51 $\pm$ 0.02 12.32 $\pm$ 0.02 AAA 8.50
168 203253.37+411927.7 20325342+4119284 0.79 15.26 $\pm$ 0.05 14.15 $\pm$ 0.05 13.71 $\pm$ 0.05 AAA 7.09
169 203253.55+410714.1 - - - - - - -
170 203253.53+411545.3 20325354+4115455 0.12 16.27 $\pm$ 0.11 14.96 $\pm$ 0.07 14.62 $\pm$ 0.11 AAB 16.07
171 203253.56+412019.4 20325351+4120195 1.01 16.36 15.32 $\pm$ 0.10 14.70 $\pm$ 0.12 UAB 7.54
172 203253.77+411513.3 20325377+4115134 0.18 14.12 $\pm$ 0.03 12.96 $\pm$ 0.03 12.49 $\pm$ 0.03 AAA 8.20
173 203253.88+411216.0 20325385+4112151 1.27 17.04 15.62 $\pm$ 0.12 14.57 $\pm$ 0.10 UBA 5.19
174 203253.90+411536.7 20325388+4115366 0.59 13.37 $\pm$ 0.02 12.61 $\pm$ 0.02 12.32 $\pm$ 0.02 AAA N/A
175 203253.95+411702.7 20325393+4117030 0.35 16.13 $\pm$ 0.08 14.87 $\pm$ 0.06 14.24 $\pm$ 0.07 AAA 9.31
176 203254.09+411726.5 20325419+4117257 1.69 16.82 $\pm$ 0.15 15.81 $\pm$ 0.14 15.60 CBU N/A
177 203254.17+411128.1 - - - - - - -
178 203254.22+410818.2 20325412+4108185 1.55 13.15 $\pm$ 0.03 12.06 $\pm$ 0.02 11.63 $\pm$ 0.02 AAA 5.95
179 203254.19+411242.4 20325421+4112426 0.11 15.28 $\pm$ 0.04 13.96 $\pm$ 0.03 13.39 $\pm$ 0.04 AAA N/A
180 203254.21+411025.4 20325422+4110256 0.12 13.11 12.30 $\pm$ 0.03 12.02 UAU 9.21
181 203254.28+411433.5 20325431+4114341 0.45 16.56 15.79 $\pm$ 0.14 15.11 $\pm$ 0.18 UBC 6.40
182 203254.28+412333.2 20325435+4123342 1.12 15.55 $\pm$ 0.06 14.44 $\pm$ 0.05 14.03 $\pm$ 0.07 AAA 10.78
183 203254.33+411458.5 20325432+4114586 0.27 14.88 $\pm$ 0.04 13.69 $\pm$ 0.04 13.22 $\pm$ 0.04 AAA 12.78
184 203254.39+410640.9 20325438+4106412 0.34 14.54 $\pm$ 0.03 13.26 $\pm$ 0.03 12.83 $\pm$ 0.03 AAA 6.96
185 203254.43+411550.0 20325439+4115499 0.73 14.43 14.88 $\pm$ 0.09 14.44 $\pm$ 0.10 UAA 2.57
186 203254.56+410840.2 20325469+4108396 2.04 15.91 $\pm$ 0.07 14.15 $\pm$ 0.05 13.42 $\pm$ 0.04 AAA 1.25
187 203254.55+411446.5 20325457+4114468 0.16 12.69 $\pm$ 0.02 11.79 $\pm$ 0.02 11.37 $\pm$ 0.02 AAA N/A
188 203254.61+411341.4 20325461+4113416 0.23 15.87 $\pm$ 0.07 14.52 $\pm$ 0.05 13.86 $\pm$ 0.06 AAA 9.95
189 203254.60+411932.8 20325464+4119321 1.01 13.28 $\pm$ 0.03 12.54 $\pm$ 0.02 12.21 $\pm$ 0.02 AAA 7.03
190 203254.79+411203.0 20325480+4112034 0.12 15.58 $\pm$ 0.05 14.10 $\pm$ 0.03 13.58 $\pm$ 0.04 AAA 4.91
191 203254.89+411517.8 20325486+4115180 0.56 15.91 $\pm$ 0.14 14.60 $\pm$ 0.11 12.64 BBU 18.77
192 203255.02+411038.8 20325498+4110384 0.96 16.50 15.71 $\pm$ 0.12 14.59 UBU N/A
193 203255.12+411314.8 20325514+4113148 0.24 15.35 13.95 $\pm$ 0.04 13.44 $\pm$ 0.04 UAA N/A
194 203255.15+411651.9 - - - - - - -
195 203255.27+410832.0 20325525+4108321 0.46 15.83 $\pm$ 0.06 14.49 $\pm$ 0.04 13.99 $\pm$ 0.06 AAA N/A
196 203255.26+411747.5 - - - - - - -
197 203255.33+411821.9 20325536+4118216 0.66 16.44 15.51 $\pm$ 0.10 14.63 UAU 8.83
198 203255.34+411852.5 20325536+4118529 0.19 13.26 $\pm$ 0.02 12.25 $\pm$ 0.02 11.89 $\pm$ 0.02 AAA 0.21
199 203255.67+411519.0 20325570+4115194 0.50 16.14 $\pm$ 0.09 14.89 $\pm$ 0.06 14.40 $\pm$ 0.09 AAA 6.31
200 203255.78+411012.2 20325574+4110120 0.77 15.07 $\pm$ 0.04 13.82 $\pm$ 0.04 13.20 $\pm$ 0.04 AAA 6.34
201 203255.72+412246.6 20325572+4122475 0.69 15.53 $\pm$ 0.06 14.51 $\pm$ 0.04 14.01 $\pm$ 0.06 AAA 3.78
202 203255.86+412233.4 20325597+4122343 1.56 15.45 $\pm$ 0.07 14.28 $\pm$ 0.06 13.80 $\pm$ 0.06 AAA N/A
203 203256.28+411317.6 20325632+4113180 0.47 16.62 $\pm$ 0.12 15.15 $\pm$ 0.07 14.55 $\pm$ 0.10 BAA 5.55
204 203256.35+411436.7 20325633+4114366 0.66 15.36 $\pm$ 0.04 14.15 $\pm$ 0.04 13.55 $\pm$ 0.04 AAA 11.00
205 203256.40+411206.6 20325647+4112075 1.20 11.07 $\pm$ 0.02 10.43 $\pm$ 0.01 10.09 $\pm$ 0.01 AAA N/A
206 203256.49+411053.1 20325648+4110531 0.26 14.73 $\pm$ 0.03 13.32 $\pm$ 0.03 12.67 $\pm$ 0.03 AAA 8.75
207 203256.55+411314.8 - - - - - - -
208 203256.61+411401.9 20325661+4114017 0.43 16.47 $\pm$ 0.11 15.09 $\pm$ 0.08 14.67 $\pm$ 0.12 BAB 9.30
209 203256.66+412015.9 20325669+4120161 0.44 15.44 $\pm$ 0.05 14.21 $\pm$ 0.04 13.69 $\pm$ 0.05 AAA N/A
210 203256.71+411044.8 - - - - - - -
211 203256.69+412025.4 20325666+4120255 0.56 15.89 $\pm$ 0.06 14.52 $\pm$ 0.05 14.09 $\pm$ 0.07 AAA 2.88
212 203256.74+411215.8 20325677+4112162 0.45 16.30 $\pm$ 0.11 14.94 $\pm$ 0.08 14.29 $\pm$ 0.08 AAA N/A
213 203256.85+411441.0 20325683+4114412 0.33 16.64 $\pm$ 0.12 15.19 $\pm$ 0.08 14.75 $\pm$ 0.12 BAB 8.42
214 203257.07+410903.8 - - - - - - -
215 203257.06+411313.9 - - - - - - -
216 203257.17+412123.3 20325721+4121260 2.51 12.78 $\pm$ 0.02 11.55 $\pm$ 0.02 11.07 $\pm$ 0.02 AAA 5.84
217 203257.25+411445.4 20325729+4114461 0.72 15.65 $\pm$ 0.05 14.48 $\pm$ 0.04 14.06 $\pm$ 0.07 AAA N/A
218 203257.32+412047.5 - - - - - - -
219 203257.36+411333.3 20325736+4113334 0.15 15.33 $\pm$ 0.05 14.00 $\pm$ 0.04 13.49 $\pm$ 0.05 AAA 8.25
220 203257.56+411234.7 20325758+4112352 0.38 15.26 $\pm$ 0.04 13.97 $\pm$ 0.04 13.51 $\pm$ 0.05 AAA 0.25
221 203257.73+411029.4 - - - - - - -
222 203257.80+410937.9 - - - - - - -
223 203257.82+411359.1 20325781+4113593 0.23 15.94 $\pm$ 0.07 14.61 $\pm$ 0.05 13.88 $\pm$ 0.06 AAA 6.13
224 203257.91+411619.0 20325792+4116190 0.23 15.05 $\pm$ 0.05 13.93 $\pm$ 0.05 13.34 AAU N/A
225 203257.94+412156.9 - - - - - - -
226 203258.03+411058.1 20325803+4110582 0.13 15.14 $\pm$ 0.04 13.99 $\pm$ 0.03 13.48 $\pm$ 0.04 AAA 6.01
227 203258.09+410713.6 20325802+4107138 1.21 17.00 $\pm$ 0.17 15.83 $\pm$ 0.13 15.07 $\pm$ 0.15 CBC 12.54
228 203258.16+411735.0 20325816+4117347 0.53 16.82 $\pm$ 0.14 15.64 $\pm$ 0.11 14.34 $\pm$ 0.09 CBA 8.37
229 203258.22+411250.6 20325828+4112511 0.83 17.00 $\pm$ 0.18 15.68 $\pm$ 0.11 15.12 CBU 6.93
230 203258.27+411617.8 20325825+4116177 0.44 16.13 $\pm$ 0.09 14.86 $\pm$ 0.06 13.67 AAU 8.72
231 203258.27+412147.8 20325825+4121471 0.96 15.90 $\pm$ 0.07 14.50 $\pm$ 0.05 14.12 $\pm$ 0.07 AAA 16.30
232 203258.37+412000.9 - - - - - - -
233 203258.39+411543.2 - - - - - - -
234 203258.44+411105.4 - - - - - - -
235 203258.45+411403.9 20325845+4114042 0.26 15.82 $\pm$ 0.07 14.53 $\pm$ 0.06 13.99 $\pm$ 0.07 AAA 12.50
236 203258.52+411234.8 20325853+4112353 0.37 16.38 $\pm$ 0.11 15.04 $\pm$ 0.09 14.53 $\pm$ 0.10 BAA N/A
237 203258.54+411525.2 20325859+4115253 0.56 16.53 15.23 $\pm$ 0.08 14.72 $\pm$ 0.12 UAB 17.45
238 203258.73+411226.6 20325874+4112266 0.23 16.29 $\pm$ 0.10 14.81 $\pm$ 0.07 14.33 $\pm$ 0.08 AAA N/A
239 203258.74+411110.0 20325883+4111095 1.38 16.25 $\pm$ 0.10 14.60 $\pm$ 0.08 13.98 $\pm$ 0.08 AAA 5.08
240 203258.93+411202.8 - - - - - - -
241 203258.93+411840.7 20325896+4118410 0.33 16.64 15.42 $\pm$ 0.10 14.46 $\pm$ 0.09 UAA 27.48
242 203259.00+411051.8 20325899+4110518 0.36 13.06 $\pm$ 0.02 12.22 $\pm$ 0.02 11.78 $\pm$ 0.02 AAA 8.47
243 203259.04+411758.7 20325904+4117589 0.11 12.12 $\pm$ 0.02 11.50 $\pm$ 0.01 11.26 $\pm$ 0.02 AAA 7.13
244 203259.17+411937.4 20325916+4119376 0.22 10.55 $\pm$ 0.02 10.35 $\pm$ 0.02 10.30 $\pm$ 0.02 AAA N/A
245 203259.20+411229.5 - - - - - - -
246 203259.21+412049.0 20325925+4120512 2.10 15.75 $\pm$ 0.06 14.75 $\pm$ 0.06 14.06 $\pm$ 0.07 AAA N/A
247 203259.24+412137.4 20325933+4121379 1.23 11.40 $\pm$ 0.02 10.70 $\pm$ 0.01 10.23 $\pm$ 0.01 AAA N/A
248 203259.24+412238.4 20325916+4122386 1.32 15.70 $\pm$ 0.06 14.35 $\pm$ 0.05 13.96 $\pm$ 0.06 AAA 7.54
249 203259.31+411037.4 20325932+4110376 0.12 16.20 $\pm$ 0.09 14.88 $\pm$ 0.06 14.32 $\pm$ 0.08 AAA 0.56
250 203259.38+411223.5 - - - - - - -
251 203259.45+410941.4 20325954+4109434 2.14 16.84 15.31 14.85 $\pm$ 0.14 UUB 13.89
252 203259.57+411055.1 20325955+4110560 0.78 16.52 15.46 $\pm$ 0.12 14.79 UBU 6.02
253 203259.63+411514.6 20325964+4115146 0.17 9.05 $\pm$ 0.02 8.45 $\pm$ 0.01 8.14 $\pm$ 0.01 AAA 8.97
254 203259.63+411941.0 20325959+4119409 0.77 15.16 $\pm$ 0.17 13.90 $\pm$ 0.09 13.48 $\pm$ 0.06 CAA N/A
255 203259.75+411300.0 20325972+4112599 0.65 14.92 $\pm$ 0.04 13.87 $\pm$ 0.03 13.32 $\pm$ 0.04 AAA 7.58
256 203259.75+411419.4 20325976+4114196 0.01 10.78 $\pm$ 0.02 10.18 $\pm$ 0.02 9.87 $\pm$ 0.02 AAA 0.79
257 203259.77+411345.4 - - - - - - -
258 203259.85+412036.5 - - - - - - -
259 203259.94+411027.9 20325995+4110280 0.16 16.79 $\pm$ 0.14 15.24 $\pm$ 0.08 14.71 $\pm$ 0.11 CAB 5.64
260 203259.98+410848.6 20325987+4108488 1.76 15.22 14.32 $\pm$ 0.06 13.88 $\pm$ 0.06 UAA N/A
261 203300.01+411107.2 20330000+4111073 0.35 15.72 $\pm$ 0.06 14.98 $\pm$ 0.07 14.76 $\pm$ 0.13 AAB N/A
262 203300.16+411217.6 20330015+4112178 0.23 16.40 $\pm$ 0.11 15.06 $\pm$ 0.09 14.49 $\pm$ 0.09 BAA 12.50
263 203300.29+411656.6 - - - - - - -
264 203300.38+411730.6 20330041+4117308 0.44 16.32 $\pm$ 0.10 14.89 $\pm$ 0.07 14.34 $\pm$ 0.09 AAA 8.49
265 203300.38+411651.7 20330038+4116520 0.22 16.46 $\pm$ 0.12 15.20 $\pm$ 0.08 14.58 $\pm$ 0.11 BAB 6.64
266 203300.42+411124.4 20330035+4111252 1.34 15.06 $\pm$ 0.04 13.49 $\pm$ 0.03 12.65 $\pm$ 0.03 AAA 4.00
267 203300.41+412030.8 - - - - - - -
268 203300.46+411147.5 20330050+4111476 0.46 13.33 12.29 $\pm$ 0.02 11.90 $\pm$ 0.02 UAA 1.85
269 203300.52+411550.1 - - - - - - -
270 203300.52+412214.0 20330032+4122141 3.08 15.45 $\pm$ 0.04 14.22 $\pm$ 0.04 13.74 $\pm$ 0.05 AAA N/A
271 203300.59+411859.3 20330058+4118594 0.36 15.87 $\pm$ 0.08 14.39 13.86 AUU 8.67
272 203300.73+410929.4 20330070+4109299 0.65 12.21 $\pm$ 0.02 11.48 $\pm$ 0.01 11.11 $\pm$ 0.01 AAA 14.31
273 203300.77+411627.1 20330078+4116275 0.10 15.54 $\pm$ 0.05 14.15 $\pm$ 0.04 13.64 $\pm$ 0.05 AAA 23.09
274 203300.77+412032.1 - - - - - - -
275 203300.84+412133.8 20330091+4121339 0.98 16.09 14.92 $\pm$ 0.07 14.59 UAU 1.87
276 203300.88+411115.6 20330088+4111157 0.29 14.65 $\pm$ 0.04 13.20 $\pm$ 0.04 12.70 $\pm$ 0.03 AAA 9.81
277 203300.90+411736.7 20330091+4117367 0.28 15.91 $\pm$ 0.06 14.62 $\pm$ 0.05 14.02 $\pm$ 0.06 AAA N/A
278 203300.95+411423.8 20330097+4114241 0.13 15.27 $\pm$ 0.05 13.92 $\pm$ 0.03 13.50 $\pm$ 0.04 AAA 9.89
279 203300.95+412119.9 20330103+4121201 1.10 16.08 $\pm$ 0.08 15.13 $\pm$ 0.07 14.55 $\pm$ 0.10 AAA 8.77
280 203301.09+411755.7 20330106+4117564 0.65 13.54 $\pm$ 0.02 12.53 $\pm$ 0.02 12.09 $\pm$ 0.02 AAA 7.62
281 203301.15+411321.8 20330116+4113218 0.20 16.97 15.84 $\pm$ 0.13 15.06 $\pm$ 0.16 UBC 6.10
282 203301.16+411152.7 20330118+4111525 0.50 16.78 15.68 $\pm$ 0.12 14.78 UBU N/A
283 203301.20+410918.2 20330119+4109182 0.30 13.96 $\pm$ 0.03 12.79 $\pm$ 0.03 12.30 $\pm$ 0.03 AAA 5.71
284 203301.21+410858.0 20330124+4108580 0.27 15.15 $\pm$ 0.04 13.82 $\pm$ 0.04 13.31 $\pm$ 0.04 AAA 7.81
285 203301.25+411459.5 20330127+4114596 0.22 14.91 13.61 13.62 $\pm$ 0.05 UUA 7.94
286 203301.26+411256.8 - - - - - - -
287 203301.35+411055.5 20330133+4110562 0.62 16.87 15.50 $\pm$ 0.11 15.34 $\pm$ 0.21 UBC 5.94
288 203301.35+411223.6 - - - - - - -
289 203301.35+411331.2 20330133+4113316 0.46 16.44 15.72 $\pm$ 0.14 15.17 UBU 9.69
290 203301.38+412158.5 20330156+4121579 2.77 15.35 $\pm$ 0.05 14.14 $\pm$ 0.05 13.63 $\pm$ 0.05 AAA 8.11
291 203301.43+411200.2 20330142+4112000 0.51 16.29 $\pm$ 0.10 15.02 $\pm$ 0.07 14.38 $\pm$ 0.08 AAA N/A
292 203301.49+411211.5 20330150+4112115 0.10 16.69 $\pm$ 0.14 15.42 $\pm$ 0.11 14.42 BAU 5.99
293 203301.49+411211.6 20330150+4112116 0.19 16.79 $\pm$ 0.11 15.32 $\pm$ 0.12 14.49 BAU N/A
294 203301.58+412302.9 - - - - - - -
295 203301.67+411248.2 20330168+4112486 0.10 15.03 $\pm$ 0.05 13.62 $\pm$ 0.04 13.22 $\pm$ 0.04 AAA 9.08
296 203301.66+411959.0 20330155+4119591 1.77 16.39 $\pm$ 0.10 15.11 $\pm$ 0.07 14.47 $\pm$ 0.09 BAA N/A
297 203301.68+411751.4 20330169+4117513 0.24 14.71 $\pm$ 0.03 13.58 $\pm$ 0.03 13.11 $\pm$ 0.03 AAA 10.36
298 203301.72+411147.0 20330170+4111475 0.43 13.41 $\pm$ 0.02 12.61 $\pm$ 0.02 12.22 $\pm$ 0.02 AAA 14.35
299 203301.72+411500.5 20330173+4115007 0.15 14.26 $\pm$ 0.03 12.98 $\pm$ 0.05 12.48 $\pm$ 0.03 AAA 7.54
300 203301.77+411110.5 20330176+4111107 0.11 16.42 $\pm$ 0.12 14.92 14.48 BUU N/A
301 203301.80+411103.9 20330182+4111037 0.36 16.25 $\pm$ 0.10 14.76 $\pm$ 0.06 14.36 $\pm$ 0.09 AAA N/A
302 203301.83+411317.3 20330182+4113174 0.24 16.19 $\pm$ 0.09 14.97 $\pm$ 0.06 14.39 $\pm$ 0.09 AAA 10.17
303 203301.94+411059.0 20330198+4110593 0.55 15.05 $\pm$ 0.04 13.81 $\pm$ 0.04 13.26 $\pm$ 0.04 AAA 7.64
304 203301.93+411739.3 20330193+4117400 0.50 14.99 $\pm$ 0.09 13.84 $\pm$ 0.08 13.43 $\pm$ 0.06 AAA N/A
305 203301.97+410644.4 20330191+4106457 1.44 16.80 $\pm$ 0.15 15.32 $\pm$ 0.08 14.75 $\pm$ 0.12 CAB 7.43
306 203301.95+411946.8 20330197+4119466 0.52 15.44 $\pm$ 0.05 14.21 $\pm$ 0.05 13.74 $\pm$ 0.06 AAA 5.07
307 203302.18+411848.8 20330224+4118489 0.66 13.29 $\pm$ 0.02 12.60 $\pm$ 0.02 12.22 $\pm$ 0.02 AAA 8.17
308 203302.26+411533.4 20330226+4115336 0.11 14.44 $\pm$ 0.03 13.23 $\pm$ 0.04 12.72 $\pm$ 0.03 AAA 7.54
309 203302.31+411324.2 20330231+4113245 0.14 15.27 $\pm$ 0.06 13.84 $\pm$ 0.09 13.36 $\pm$ 0.04 AAA 7.31
310 203302.35+411828.1 20330231+4118285 0.79 12.04 $\pm$ 0.02 11.26 $\pm$ 0.02 10.88 $\pm$ 0.01 AAA N/A
311 203302.40+411738.4 20330249+4117393 1.44 14.74 $\pm$ 0.14 11.42 10.84 BUU 1.50
312 203302.63+411355.7 20330259+4113563 0.85 16.83 $\pm$ 0.14 15.44 $\pm$ 0.10 14.84 $\pm$ 0.13 CAB 3.20
313 203302.87+410705.9 20330285+4107068 0.80 16.18 $\pm$ 0.09 14.89 $\pm$ 0.07 14.30 $\pm$ 0.08 AAA N/A
314 203302.87+411514.0 - - - - - - -
315 203302.90+411742.9 20330292+4117431 0.12 8.72 $\pm$ 0.02 8.16 $\pm$ 0.01 7.87 $\pm$ 0.01 AAA N/A
316 203303.03+411329.2 - - - - - - -
317 203303.03+411740.1 - - - - - - -
318 203303.07+411243.4 20330308+4112435 0.12 14.83 $\pm$ 0.04 13.54 $\pm$ 0.03 12.94 $\pm$ 0.03 AAA N/A
319 203303.22+411629.4 20330322+4116297 0.08 15.77 $\pm$ 0.06 14.84 $\pm$ 0.06 14.29 $\pm$ 0.08 AAA 21.26
320 203303.53+411253.6 20330356+4112539 0.34 15.63 $\pm$ 0.06 14.00 $\pm$ 0.04 13.26 $\pm$ 0.04 AAA 8.97
321 203303.64+411236.6 - - - - - - -
322 203303.66+411334.2 - - - - - - -
323 203303.66+411218.2 20330368+4112188 0.42 15.87 $\pm$ 0.10 14.48 $\pm$ 0.06 13.87 $\pm$ 0.06 AAA 6.53
324 203303.88+411736.2 20330390+4117367 0.26 13.05 $\pm$ 0.02 12.45 $\pm$ 0.02 12.10 $\pm$ 0.02 AAA 5.76
325 203304.06+411124.5 20330410+4111250 0.62 16.13 $\pm$ 0.09 14.79 $\pm$ 0.08 14.19 $\pm$ 0.08 AAA N/A
326 203304.10+410755.3 20330408+4107542 1.40 14.45 $\pm$ 0.05 13.26 $\pm$ 0.08 12.76 $\pm$ 0.03 AAA 9.16
327 203304.16+410651.5 20330423+4106514 1.14 13.94 $\pm$ 0.02 12.74 $\pm$ 0.02 12.29 $\pm$ 0.02 AAA N/A
328 203304.22+411411.7 - - - - - - -
329 203304.26+410723.1 20330435+4107237 1.38 15.80 $\pm$ 0.07 14.42 $\pm$ 0.04 14.05 $\pm$ 0.07 AAA N/A
330 203304.24+411254.6 20330425+4112548 0.04 15.12 $\pm$ 0.04 13.81 $\pm$ 0.03 13.46 $\pm$ 0.04 AAA N/A
331 203304.28+411235.2 20330428+4112354 0.03 16.94 15.85 $\pm$ 0.15 14.98 $\pm$ 0.15 UBB 23.62
332 203304.30+411613.4 20330427+4116138 0.56 15.75 $\pm$ 0.07 14.37 $\pm$ 0.06 13.71 $\pm$ 0.06 AAA 7.08
333 203304.32+411420.4 20330433+4114209 0.27 15.87 14.37 $\pm$ 0.04 13.91 UAU 37.03
334 203304.38+411405.3 20330437+4114056 0.33 16.11 $\pm$ 0.08 14.56 $\pm$ 0.04 14.04 $\pm$ 0.06 AAA 12.13
335 203304.42+411830.8 20330442+4118311 0.13 13.82 $\pm$ 0.02 12.84 $\pm$ 0.02 12.41 $\pm$ 0.02 AAA N/A
336 203304.48+411128.1 20330447+4111282 0.25 16.44 $\pm$ 0.12 15.31 $\pm$ 0.09 14.98 $\pm$ 0.15 BAB N/A
337 203304.49+411157.6 20330447+4111580 0.48 16.22 $\pm$ 0.10 14.90 $\pm$ 0.07 14.48 $\pm$ 0.10 AAA 4.79
338 203304.57+411612.9 - - - - - - -
339 203304.67+411205.9 20330466+4112058 0.48 16.00 $\pm$ 0.08 14.68 $\pm$ 0.05 13.98 $\pm$ 0.06 AAA 8.08
340 203304.70+411506.2 20330475+4115064 0.66 16.31 $\pm$ 0.10 14.95 $\pm$ 0.07 14.36 $\pm$ 0.09 AAA 9.49
341 203304.75+411312.4 20330476+4113130 0.39 15.79 $\pm$ 0.09 14.35 $\pm$ 0.09 13.91 $\pm$ 0.08 AAA 5.47
342 203304.75+411650.4 - - - - - - -
343 203304.78+410857.2 - - - - - - -
344 203304.86+411238.7 20330487+4112389 0.06 15.52 14.23 $\pm$ 0.08 13.77 $\pm$ 0.06 UAA 11.20
345 203304.95+411129.5 20330495+4111291 0.55 16.27 $\pm$ 0.09 14.81 $\pm$ 0.07 14.38 $\pm$ 0.09 AAA 3.32
346 203305.01+411256.2 20330500+4112566 0.37 16.66 $\pm$ 0.17 15.03 $\pm$ 0.07 14.50 $\pm$ 0.09 CAA 10.59
347 203305.03+411421.5 20330505+4114219 0.17 15.61 $\pm$ 0.06 14.08 $\pm$ 0.03 13.33 $\pm$ 0.05 AAA 7.86
348 203305.03+411831.4 20330502+4118317 0.24 15.95 $\pm$ 0.08 14.66 $\pm$ 0.06 14.02 $\pm$ 0.07 AAA 5.06
349 203305.04+411146.6 - - - - - - -
350 203305.03+411421.4 20330505+4114219 0.26 15.61 $\pm$ 0.06 14.08 $\pm$ 0.03 13.33 $\pm$ 0.05 AAA N/A
351 203305.05+411144.8 20330503+4111452 0.38 15.20 $\pm$ 0.06 13.74 $\pm$ 0.05 13.19 $\pm$ 0.05 AAA N/A
352 203305.17+411233.2 20330519+4112336 0.25 15.82 $\pm$ 0.07 14.25 $\pm$ 0.05 13.84 $\pm$ 0.06 AAA 8.31
353 203305.20+411335.6 20330519+4113360 0.36 14.88 $\pm$ 0.12 13.90 $\pm$ 0.09 13.34 $\pm$ 0.07 EAA 6.78
354 203305.25+411604.5 20330525+4116047 0.05 14.62 $\pm$ 0.03 13.86 $\pm$ 0.03 13.55 $\pm$ 0.04 AAA 0.40
355 203305.26+412138.7 20330526+4121391 0.22 14.32 $\pm$ 0.03 13.15 $\pm$ 0.03 12.54 $\pm$ 0.02 AAA N/A
356 203305.28+411258.6 20330528+4112591 0.29 15.58 $\pm$ 0.08 14.23 $\pm$ 0.10 13.75 $\pm$ 0.07 AAA N/A
357 203305.30+411303.6 20330529+4113038 0.24 13.29 $\pm$ 0.03 12.56 $\pm$ 0.03 12.24 $\pm$ 0.03 AAA 7.98
358 203305.36+411311.8 - - - - - - -
359 203305.41+411153.6 20330541+4111538 0.01 15.23 13.87 $\pm$ 0.05 13.37 $\pm$ 0.05 UAA 2.48
360 203305.47+411610.5 20330549+4116109 0.27 16.29 $\pm$ 0.10 15.24 $\pm$ 0.08 14.55 $\pm$ 0.11 AAA N/A
361 203305.59+411348.2 20330561+4113486 0.15 14.45 $\pm$ 0.02 13.17 $\pm$ 0.02 12.75 $\pm$ 0.03 AAA 3.61
362 203305.72+411136.7 - - - - - - -
363 203305.79+411634.7 20330579+4116352 0.28 16.62 $\pm$ 0.13 13.96 $\pm$ 0.03 12.30 $\pm$ 0.02 BAA 4.88
364 203305.89+411905.0 20330587+4119048 0.54 16.85 15.60 $\pm$ 0.12 15.44 UBU N/A
365 203305.92+412057.5 20330594+4120573 0.42 16.10 $\pm$ 0.09 14.79 $\pm$ 0.06 14.40 $\pm$ 0.09 AAA N/A
366 203306.07+411256.7 - - - - - - -
367 203306.13+411012.6 20330615+4110140 1.26 15.82 15.37 $\pm$ 0.09 13.94 UAU N/A
368 203306.19+411453.8 - - - - - - -
369 203306.21+411715.3 20330616+4117158 0.82 16.19 14.78 14.59 $\pm$ 0.12 UUB N/A
370 203306.20+412242.9 20330611+4122434 1.46 16.03 $\pm$ 0.09 14.90 $\pm$ 0.07 14.19 $\pm$ 0.08 AAA 6.96
371 203306.24+410948.3 20330621+4109495 1.10 15.16 $\pm$ 0.05 13.80 $\pm$ 0.04 13.26 $\pm$ 0.04 AAA 1.12
372 203306.26+411235.1 20330626+4112354 0.17 14.19 $\pm$ 0.02 12.94 $\pm$ 0.02 12.44 $\pm$ 0.02 AAA 6.78
373 203306.27+411100.4 - - - - - - -
374 203306.27+412019.0 20330629+4120188 0.44 14.81 $\pm$ 0.03 13.61 $\pm$ 0.02 13.10 $\pm$ 0.03 AAA 3.16
375 203306.32+412215.2 20330622+4122138 2.32 16.15 $\pm$ 0.10 15.02 $\pm$ 0.08 14.45 $\pm$ 0.10 AAA 6.82
376 203306.35+411353.1 20330635+4113536 0.30 16.03 $\pm$ 0.08 14.75 $\pm$ 0.07 14.25 $\pm$ 0.09 AAA 4.50
377 203306.38+411330.7 20330641+4113310 0.22 14.77 $\pm$ 0.04 13.41 $\pm$ 0.04 13.01 $\pm$ 0.04 AAA 2.20
378 203306.47+411206.8 20330646+4112071 0.23 13.97 $\pm$ 0.03 12.77 $\pm$ 0.04 12.30 $\pm$ 0.03 AAA 10.37
379 203306.61+412158.3 - - - - - - -
380 203306.64+411817.7 - - - - - - -
381 203306.71+411200.0 20330671+4112002 0.12 14.50 13.14 $\pm$ 0.02 12.72 UAU 7.02
382 203306.73+411527.5 - - - - - - -
383 203306.79+411727.8 20330681+4117283 0.25 15.61 $\pm$ 0.06 14.30 $\pm$ 0.04 13.89 $\pm$ 0.07 AAA N/A
384 203306.84+411224.3 20330684+4112245 0.11 15.99 $\pm$ 0.08 14.47 $\pm$ 0.05 13.90 $\pm$ 0.06 AAA N/A
385 203306.85+411503.4 - - - - - - -
386 203306.91+411647.2 - - - - - - -
387 203306.93+411858.9 20330697+4118592 0.44 15.06 $\pm$ 0.05 13.84 $\pm$ 0.04 13.42 $\pm$ 0.05 AAA 5.49
388 203307.00+411649.6 20330702+4116499 0.11 14.84 $\pm$ 0.03 13.48 $\pm$ 0.02 12.80 $\pm$ 0.03 AAA N/A
389 203307.06+411300.1 20330711+4113002 0.56 15.30 $\pm$ 0.06 13.94 $\pm$ 0.05 13.41 $\pm$ 0.05 AAA 16.66
390 203307.07+411604.3 - - - - - - -
391 203307.13+411625.7 20330713+4116263 0.38 17.16 15.55 $\pm$ 0.10 14.93 $\pm$ 0.15 UBB 4.92
392 203307.14+411141.2 - - - - - - -
393 203307.14+412006.9 20330712+4120072 0.45 14.24 $\pm$ 0.02 13.03 $\pm$ 0.02 12.52 $\pm$ 0.02 AAA N/A
394 203307.15+411318.7 - - - - - - -
395 203307.16+411730.4 - - - - - - -
396 203307.17+411520.2 20330718+4115206 0.26 16.15 $\pm$ 0.09 14.83 $\pm$ 0.06 14.18 $\pm$ 0.08 AAA 4.51
397 203307.25+411000.4 20330736+4110014 1.60 16.48 15.49 $\pm$ 0.10 14.86 $\pm$ 0.13 UAB N/A
398 203307.32+411214.6 20330733+4112148 0.05 14.67 $\pm$ 0.11 13.28 $\pm$ 0.03 12.74 $\pm$ 0.03 BAA 6.72
399 203307.34+411341.5 - - - - - - -
400 203307.36+411800.0 20330737+4118000 0.23 16.32 $\pm$ 0.10 15.06 $\pm$ 0.08 14.57 $\pm$ 0.11 AAA 4.87
401 203307.40+411151.3 20330739+4111505 1.09 16.02 $\pm$ 0.08 14.40 $\pm$ 0.06 13.75 $\pm$ 0.06 AAA 6.35
402 203307.45+411226.4 20330746+4112266 0.06 13.16 $\pm$ 0.02 12.02 $\pm$ 0.02 11.50 $\pm$ 0.02 AAA N/A
403 203307.47+411254.5 - - - - - - -
404 203307.50+412032.3 20330747+4120324 0.57 17.38 15.64 $\pm$ 0.12 15.31 UBU 7.39
405 203307.55+411821.2 20330751+4118214 0.66 16.18 $\pm$ 0.09 14.85 $\pm$ 0.05 14.42 $\pm$ 0.09 AAA 11.82
406 203307.57+411947.6 20330758+4119478 0.01 14.18 $\pm$ 0.03 13.12 $\pm$ 0.03 12.68 $\pm$ 0.02 AAA 5.51
407 203307.59+411300.7 20330759+4113010 0.04 14.05 $\pm$ 0.06 12.60 12.39 $\pm$ 0.05 AUA N/A
408 203307.73+410828.5 20330768+4108291 0.97 13.75 $\pm$ 0.04 12.73 $\pm$ 0.03 12.31 $\pm$ 0.03 AAA 4.66
409 203307.83+411243.0 20330783+4112435 0.23 16.27 $\pm$ 0.12 15.09 $\pm$ 0.09 14.68 $\pm$ 0.15 BAB 4.81
410 203307.86+411216.3 20330786+4112161 0.45 12.84 $\pm$ 0.03 11.91 $\pm$ 0.05 11.44 $\pm$ 0.04 AAA N/A
411 203307.91+411254.3 - - - - - - -
412 203307.91+411606.9 20330791+4116074 0.33 16.68 15.46 $\pm$ 0.13 14.79 UBU N/A
413 203307.97+411257.7 20330792+4112571 1.12 15.41 $\pm$ 0.08 13.03 13.48 $\pm$ 0.07 AUA 7.59
414 203307.98+411300.7 20330798+4113007 0.18 15.02 $\pm$ 0.07 12.73 13.23 $\pm$ 0.05 AUA 9.77
415 203307.99+411659.4 20330801+4116597 0.11 15.81 $\pm$ 0.07 14.55 $\pm$ 0.05 14.05 $\pm$ 0.07 AAA 3.74
416 203308.02+411801.5 20330806+4118016 0.48 13.93 $\pm$ 0.02 13.28 $\pm$ 0.03 12.99 $\pm$ 0.03 AAA N/A
417 203308.03+411436.9 - - - - - - -
418 203308.04+411642.9 - - - - - - -
419 203308.05+412217.4 20330808+4122180 0.44 15.30 $\pm$ 0.05 14.11 $\pm$ 0.04 13.63 $\pm$ 0.05 AAA N/A
420 203308.09+411109.6 20330808+4111091 0.66 13.37 12.52 $\pm$ 0.04 12.09 UAU 9.78
421 203308.09+411526.9 20330809+4115270 0.16 16.24 $\pm$ 0.11 15.22 $\pm$ 0.08 14.45 BAU 5.62
422 203308.21+410626.4 20330817+4106265 0.57 13.28 $\pm$ 0.02 12.12 $\pm$ 0.04 11.70 $\pm$ 0.02 AAA 8.89
423 203308.21+411304.0 20330821+4113045 0.23 14.45 $\pm$ 0.05 15.34 $\pm$ 0.21 14.72 $\pm$ 0.18 ECC 5.03
424 203308.23+411823.1 20330824+4118235 0.20 15.41 $\pm$ 0.06 14.26 $\pm$ 0.06 13.71 $\pm$ 0.05 AAA N/A
425 203308.25+411513.1 - - - - - - -
426 203308.29+411543.0 20330833+4115432 0.55 13.68 $\pm$ 0.03 13.10 $\pm$ 0.03 12.85 $\pm$ 0.04 AAA 0.18
427 203308.33+411421.1 20330834+4114214 0.06 15.72 $\pm$ 0.06 14.28 $\pm$ 0.03 13.76 $\pm$ 0.05 AAA 8.52
428 203308.50+411734.6 20330848+4117347 0.36 16.37 $\pm$ 0.11 15.12 $\pm$ 0.08 14.61 $\pm$ 0.11 BAB 4.98
429 203308.53+411328.1 - - - - - - -
430 203308.56+411435.9 - - - - - - -
431 203308.59+411915.1 20330859+4119154 0.02 13.17 $\pm$ 0.02 11.97 $\pm$ 0.01 10.93 $\pm$ 0.01 AAA N/A
432 203308.63+411514.4 20330865+4115146 0.22 14.15 $\pm$ 0.04 12.76 $\pm$ 0.03 12.20 $\pm$ 0.02 AAA N/A
433 203308.76+411318.5 20330879+4113182 0.66 7.11 $\pm$ 0.01 6.54 $\pm$ 0.01 6.23 $\pm$ 0.01 AAA N/A
434 203308.80+411257.4 - - - - - - -
435 203308.84+411214.8 20330880+4112151 0.66 15.72 14.99 $\pm$ 0.10 13.08 UAU 11.35
436 203308.84+411317.1 - - - - - - -
437 203308.89+411327.7 - - - - - - -
438 203308.90+411243.5 - - - - - - -
439 203308.91+412227.3 20330892+4122276 0.06 15.73 $\pm$ 0.06 14.60 $\pm$ 0.05 14.31 $\pm$ 0.09 AAA 4.36
440 203308.95+411705.7 - - - - - - -
441 203308.96+411101.9 20330896+4111024 0.35 15.84 $\pm$ 0.07 14.56 $\pm$ 0.05 14.01 $\pm$ 0.06 AAA 3.03
442 203308.97+411537.5 - - - - - - -
443 203309.01+411331.0 - - - - - - -
444 203309.06+411227.8 - - - - - - -
445 203309.12+411308.6 20330911+4113094 0.68 14.24 $\pm$ 0.16 13.11 $\pm$ 0.13 11.93 CBU N/A
446 203309.15+411343.2 20330915+4113434 0.11 10.83 $\pm$ 0.03 10.22 $\pm$ 0.03 9.88 $\pm$ 0.02 AAA 5.87
447 203309.26+411302.1 - - - - - - -
448 203309.30+411618.6 20330929+4116188 0.34 16.14 14.54 14.24 $\pm$ 0.09 UUA 5.28
449 203309.32+411250.6 20330944+4112510 1.76 11.87 11.14 12.88 $\pm$ 0.06 UUA 35.41
450 203309.32+411428.9 20330936+4114290 0.44 11.88 $\pm$ 0.02 11.17 $\pm$ 0.02 10.81 $\pm$ 0.02 AAA 13.50
451 203309.38+411347.0 - - - - - - -
452 203309.42+411320.3 - - - - - - -
453 203309.45+411258.3 - - - - - - -
454 203309.53+412109.9 20330954+4121102 0.16 15.61 $\pm$ 0.05 14.25 $\pm$ 0.04 13.72 $\pm$ 0.05 AAA N/A
455 203309.59+411308.0 - - - - - - -
456 203309.60+411300.4 20330960+4113005 0.20 8.65 $\pm$ 0.01 8.14 $\pm$ 0.01 7.76 $\pm$ 0.01 AAE 9.20
457 203309.60+411429.9 - - - - - - -
458 203309.63+412130.4 - - - - - - -
459 203309.67+412214.3 20330984+4122143 2.53 15.87 $\pm$ 0.09 14.55 $\pm$ 0.06 14.22 $\pm$ 0.08 AAA 8.06
460 203309.73+411250.6 20330965+4112508 1.21 13.06 14.06 $\pm$ 0.13 11.80 UBU 9.80
461 203309.78+410902.2 20330978+4109029 0.52 15.71 $\pm$ 0.07 14.30 $\pm$ 0.06 13.76 $\pm$ 0.06 AAA 14.58
462 203309.85+411247.8 - - - - - - -
463 203309.92+411139.5 - - - - - - -
464 203309.92+411756.2 20330992+4117563 0.17 14.83 $\pm$ 0.03 13.54 $\pm$ 0.03 12.79 $\pm$ 0.02 AAA 10.20
465 203309.93+411325.9 20330994+4113260 0.20 15.66 $\pm$ 0.09 13.10 12.68 AUU 5.40
466 203309.95+410856.9 20330996+4108571 0.03 16.55 $\pm$ 0.14 15.16 $\pm$ 0.08 14.50 $\pm$ 0.10 BAA 7.70
467 203310.02+412042.2 - - - - - - -
468 203310.03+411429.6 - - - - - - -
469 203310.04+411743.2 - - - - - - -
470 203310.05+411301.6 - - - - - - -
471 203310.07+411000.8 20331014+4110026 1.88 10.49 $\pm$ 0.02 9.71 $\pm$ 0.01 9.37 $\pm$ 0.01 AAE 3.06
472 203310.10+411414.4 - - - - - - -
473 203310.11+411337.1 - - - - - - -
474 203310.12+411239.7 20331014+4112398 0.19 14.90 $\pm$ 0.04 13.75 $\pm$ 0.04 13.26 $\pm$ 0.04 AAA 4.49
475 203310.17+411545.3 20331018+4115455 0.11 14.10 $\pm$ 0.03 12.90 $\pm$ 0.04 12.37 $\pm$ 0.03 AAA 7.64
476 203310.18+411339.4 20331016+4113394 0.39 14.49 $\pm$ 0.02 13.26 $\pm$ 0.05 12.78 $\pm$ 0.04 AAA 6.17
477 203310.21+411322.4 - - - - - - -
478 203310.23+411533.1 - - - - - - -
479 203310.26+411413.3 20331027+4114136 0.04 14.99 $\pm$ 0.03 13.59 $\pm$ 0.03 13.06 $\pm$ 0.03 AAA 7.48
480 203310.29+412205.1 20331029+4122055 0.10 13.46 $\pm$ 0.03 12.52 $\pm$ 0.02 12.12 $\pm$ 0.02 AAA 14.32
481 203310.45+410925.5 20331047+4109257 0.11 16.52 15.52 $\pm$ 0.12 14.68 $\pm$ 0.12 UBB 7.45
482 203310.56+411328.4 20331059+4113285 0.24 14.98 $\pm$ 0.03 13.62 $\pm$ 0.03 13.05 $\pm$ 0.04 AAA N/A
483 203310.57+412102.3 20331060+4121041 1.61 15.39 $\pm$ 0.08 14.31 $\pm$ 0.09 13.97 $\pm$ 0.06 AAA N/A
484 203310.58+411538.7 - - - - - - -
485 203310.60+411323.8 - - - - - - -
486 203310.64+411748.8 - - - - - - -
487 203310.71+411339.6 - - - - - - -
488 203310.72+411507.9 20331074+4115081 0.33 6.47 $\pm$ 0.01 5.90 $\pm$ 0.01 5.57$\pm$N/A AAA N/A
489 203310.73+411502.2 - - - - - - -
490 203310.81+411256.4 20331084+4112568 0.42 15.78 $\pm$ 0.09 14.45 $\pm$ 0.08 13.61 AAU 6.49
491 203310.93+410953.3 20331095+4109537 0.16 16.38 $\pm$ 0.12 14.90 $\pm$ 0.07 14.42 $\pm$ 0.09 BAA N/A
492 203310.99+411241.8 - - - - - - -
493 203311.05+411032.0 20331106+4110321 0.16 10.17 $\pm$ 0.02 9.60 $\pm$ 0.01 9.28 $\pm$ 0.01 AAA N/A
494 203311.07+411318.0 - - - - - - -
495 203311.09+411445.4 20331108+4114457 0.25 13.93 $\pm$ 0.01 13.34 $\pm$ 0.03 13.24 $\pm$ 0.05 AAA 9.77
496 203311.13+411640.6 - - - - - - -
497 203311.22+410833.9 20331123+4108338 0.39 15.27 $\pm$ 0.04 13.98 $\pm$ 0.02 13.44 $\pm$ 0.04 AAA N/A
498 203311.29+411711.4 - - - - - - -
499 203311.32+411729.0 20331134+4117294 0.24 15.31 $\pm$ 0.05 14.06 $\pm$ 0.04 13.55 $\pm$ 0.05 AAA 8.17
500 203311.44+411256.7 20331145+4112568 0.10 14.87 $\pm$ 0.05 13.60 $\pm$ 0.05 12.97 AAU 9.39
501 203311.47+411348.0 20331148+4113481 0.14 16.11 $\pm$ 0.09 14.40 $\pm$ 0.05 13.98 $\pm$ 0.06 AAA 9.16
502 203311.51+411238.8 - - - - - - -
503 203311.52+410718.9 20331151+4107197 0.63 15.71 $\pm$ 0.06 14.53 $\pm$ 0.06 14.28 $\pm$ 0.08 AAA 5.52
504 203311.59+411243.0 - - - - - - -
505 203311.60+411615.8 20331157+4116169 0.96 16.94 $\pm$ 0.19 15.43 $\pm$ 0.09 14.94 $\pm$ 0.16 CAC 8.29
506 203311.63+411646.4 20331162+4116468 0.29 14.94 $\pm$ 0.05 13.49 $\pm$ 0.05 12.77 AAU N/A
507 203311.79+411149.9 20331180+4111502 0.16 16.25 $\pm$ 0.13 14.89 $\pm$ 0.11 14.33 $\pm$ 0.10 BAA 11.08
508 203311.87+411245.3 20331183+4112455 0.66 15.06 $\pm$ 0.16 13.66 $\pm$ 0.08 13.25 $\pm$ 0.07 CAA N/A
509 203311.89+411213.9 20331189+4112139 0.24 15.11 $\pm$ 0.04 13.86 $\pm$ 0.03 13.47 $\pm$ 0.04 AAA 6.84
510 203312.04+412023.1 20331204+4120235 0.15 12.73 $\pm$ 0.03 11.96 $\pm$ 0.03 11.56 $\pm$ 0.02 AAA 6.83
511 203312.05+411649.2 20331206+4116495 0.11 15.53 $\pm$ 0.05 14.19 $\pm$ 0.04 13.51 AAU N/A
512 203312.20+411014.2 - - - - - - -
513 203312.25+411104.6 - - - - - - -
514 203312.50+411502.0 20331252+4115021 0.22 12.28 $\pm$ 0.02 11.21 $\pm$ 0.02 10.43 $\pm$ 0.01 AAA 2.45
515 203312.50+411150.1 - - - - - - -
516 203312.57+411453.3 20331259+4114532 0.39 16.15 $\pm$ 0.11 14.40 $\pm$ 0.04 13.53 $\pm$ 0.06 BAA 10.13
517 203312.60+411539.4 20331261+4115395 0.09 16.01 $\pm$ 0.09 14.57 $\pm$ 0.05 14.21 $\pm$ 0.08 AAA 10.72
518 203312.62+411635.1 20331265+4116353 0.33 16.77 15.25 $\pm$ 0.08 14.49 $\pm$ 0.10 UAA 1.28
519 203312.66+411913.6 - - - - - - -
520 203312.73+411132.6 20331273+4111330 0.16 13.98 $\pm$ 0.02 12.67 $\pm$ 0.02 11.99 $\pm$ 0.02 AAA 12.31
521 203312.74+411439.3 - - - - - - -
522 203312.86+412115.8 20331289+4121171 1.06 16.00 $\pm$ 0.08 14.66 $\pm$ 0.05 14.31 $\pm$ 0.09 AAA N/A
523 203312.87+411154.4 - - - - - - -
524 203312.97+411257.5 20331287+4112575 1.56 13.91 14.72 $\pm$ 0.08 12.67 UAU 0.93
525 203313.03+411539.0 20331304+4115393 0.09 15.58 $\pm$ 0.05 14.20 $\pm$ 0.04 13.62 $\pm$ 0.05 AAA 7.65
526 203313.04+411311.5 20331307+4113119 0.40 15.20 $\pm$ 0.17 14.04 $\pm$ 0.10 13.73 $\pm$ 0.08 CAA N/A
527 203313.08+411030.1 20331305+4110311 0.92 16.44 $\pm$ 0.12 15.01 $\pm$ 0.07 14.49 $\pm$ 0.10 BAA 7.86
528 203313.16+411338.6 20331320+4113389 0.45 15.25 $\pm$ 0.12 13.98 $\pm$ 0.08 13.56 $\pm$ 0.05 BAA 11.21
529 203313.23+411319.1 - - - - - - -
530 203313.24+411328.4 20331326+4113287 0.12 8.98 $\pm$ 0.03 8.35 $\pm$ 0.01 8.01 $\pm$ 0.01 AAA 7.43
531 203313.25+411727.2 20331327+4117275 0.22 16.26 15.19 $\pm$ 0.09 14.70 $\pm$ 0.12 UAB N/A
532 203313.38+411110.8 20331334+4111111 0.77 15.97 $\pm$ 0.09 14.54 $\pm$ 0.06 14.10 $\pm$ 0.07 AAA 6.85
533 203313.40+411233.6 20331339+4112337 0.37 16.59 $\pm$ 0.13 15.01 $\pm$ 0.07 14.70 $\pm$ 0.13 BAB 14.74
534 203313.54+411948.8 20331362+4119494 1.06 14.84 $\pm$ 0.03 13.70 $\pm$ 0.02 13.26 $\pm$ 0.04 AAA N/A
535 203313.60+412004.8 20331366+4120052 0.78 15.66 $\pm$ 0.07 14.61 $\pm$ 0.05 13.96 $\pm$ 0.07 AAA N/A
536 203313.62+411749.2 20331359+4117497 0.63 15.10 $\pm$ 0.04 14.20 $\pm$ 0.04 13.95 $\pm$ 0.07 AAA N/A
537 203313.67+411305.4 20331369+4113057 0.15 9.03 $\pm$ 0.02 8.56 $\pm$ 0.02 8.28 $\pm$ 0.01 AAA N/A
538 203313.78+411028.0 20331377+4110294 1.22 16.12 $\pm$ 0.09 14.77 $\pm$ 0.07 14.15 $\pm$ 0.08 AAA 6.11
539 203313.85+411715.1 20331385+4117154 0.23 16.02 $\pm$ 0.08 15.01 $\pm$ 0.07 14.62 $\pm$ 0.11 AAA N/A
540 203313.87+411259.0 20331382+4113001 1.22 11.83 13.47 $\pm$ 0.11 11.01 UBU 9.91
541 203313.88+411345.4 20331387+4113458 0.26 16.49 15.48 $\pm$ 0.11 14.35 $\pm$ 0.09 UBA 9.67
542 203314.05+411626.9 20331406+4116270 0.08 16.41 $\pm$ 0.12 14.68 $\pm$ 0.05 13.65 $\pm$ 0.05 BAA 5.91
543 203314.09+410925.6 20331411+4109264 0.51 15.90 $\pm$ 0.07 14.55 $\pm$ 0.05 14.06 $\pm$ 0.07 AAA 5.17
544 203314.11+412021.6 20331411+4120218 0.15 7.25 $\pm$ 0.01 6.82 $\pm$ 0.01 6.61 $\pm$ 0.01 AAA N/A
545 203314.13+411446.6 - - -