Table 4: Optical properties and best-fit parameters from the X-ray spectral analysis.
# Name RA DECL HR X-type OPT-type R F2-10 Model $z_{{\rm spec}}$ log $L_{2-10}^{{\rm corr}}$ $N_{{\rm H}}$ $\Gamma$ $\chi^{2}_{\nu}$
    (deg) (deg)         (10-14 cgs)       (1022 cm-2)    
(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15)
1 XLSS J022100.2-042855.2 02:21:00.11 -4:28:54.93 -0.66 I 2 18.4 1.43 PL 0.200 42.27 $0.026^{\rm +0.025}_{-0.000}$ $2.57_{-0.21}^{\rm +0.24}$ 1.24
2 XLSS J022202.7-050944.3 02:22:02.68 -5:09:44.42 -0.39 I 1 18.4 24.60 PL 0.275 43.73 $0.026^{\rm +0.052}_{-0.000}$ $1.66_{-0.14}^{\rm +0.08}$ 0.61
3 XLSS J022208.2-042732.2 02:22:08.22 -4:27:33.22 -0.59 I 1 18.4 2.45 PL 1.678 44.64 $0.026^{\rm +0.214}_{-0.000}$ 1.9 -
4 XLSS J022234.4-043707.6 02:22:34.43 -4:37:08.52 -0.42 I 2 19.6 1.28 PL 0.167 42.00 $0.085^{\rm +0.335}_{-0.059}$ 1.9 -
5 XLSS J022244.4-043346.8 02:22:44.40 -4:33:46.35 -0.51 I 1 17.9 21.76 PL 0.760 44.77 0.026 $1.99_{-0.04}^{\rm +0.04}$ 0.96
6 XLSS J022247.8-043329.1 02:22:47.78 -4:33:30.26 -0.58 I 1 19.7 1.57 PL 1.629 44.40 $0.026^{\rm +0.289}_{-0.000}$ $1.85_{-0.25}^{\rm +0.26}$ 1.76
7 XLSS J022249.3-051452.1 02:22:49.51 -5:14:52.64 -0.64 I 1 17.9 6.02 PL 0.313 43.34 $0.026^{\rm +0.011}_{-0.000}$ $2.42_{-0.09}^{\rm +0.09}$ 1.02
8 XLSS J022249.6-041350.0 02:22:49.58 -4:13:52.22 -0.55 I 1 20.1 1.43 PL 1.566 44.46 $0.026^{\rm +0.147}_{-0.000}$ $2.15_{-0.21}^{\rm +0.24}$ 1.16
9 XLSS J022253.6-042931.3 02:22:53.58 -4:29:27.93 -0.40 I 2 18.1 3.58 PL 0.215 42.68 $0.026^{\rm +0.053}_{-0.000}$ 1.9 1.01
10 XLSS J022258.0-041840.3 02:22:57.97 -4:18:40.40 0.57 II 2 17.5 12.23 PL+GAa 0.237 43.37 $3.43_{-1.30}^{\rm +5.30}$ 1.9 0.72
11 XLSS J022301.9-043205.2 02:23:01.93 -4:32:04.65 -0.29 II 2 19.7 0.97 PL 0.616 43.20 $1.390_{-0.808}^{\rm +1.202}$ 1.9 -
12 XLSS J022312.1-050624.9 02:23:12.26 -5:06:25.45 -0.41 I 1 19.4 1.30 PL 2.206 44.65 $0.217_{-0.191}^{\rm +1.361}$ 1.9 -
13 XLSS J022313.3-043102.6 02:23:13.20 -4:31:00.93 -0.35 I 2 15.6 1.23 PL 0.017 39.90 $0.026_{-0.000}^{\rm +0.090}$ 1.9 -
14 XLSS J022317.2-044032.4 02:23:17.34 -4:40:33.46 -0.44 I 1 18.0 3.62 PL 0.842 43.96 $0.026_{-0.000}^{\rm +0.151}$ $1.34_{-0.22}^{\rm +0.27}$ 1.20
15 XLSS J022319.5-044732.1 02:23:19.54 -4:47:31.50 -0.40 I 2 18.6 2.72 PL 0.293 42.87 $0.203_{-0.126}^{\rm +0.116}$ $1.87_{-0.22}^{\rm +0.28}$ 1.00
16 XLSS J022320.9-050629.0 02:23:21.05 -5:06:27.20 -0.42 I 1 19.7 2.03 PL 2.415 44.94 $0.200_{-0.174}^{\rm +0.580}$ 1.9 -
17 XLSS J022326.5-045706.9 02:23:26.45 -4:57:04.58 -0.32 I 1 20.5 1.52 PL 0.826 43.68 0.026 $1.89_{-0.46}^{\rm +0.51}$ -
18 XLSS J022327.8-040119.0 02:23:27.85 -4:01:19.71 -0.68 I 1 19.7 1.80 PL 1.922 44.73 0.026 $2.08_{-0.20}^{\rm +0.22}$ 1.48
19 XLSS J022329.3-045453.0 02:23:29.18 -4:54:53.12 -0.66 I 1 19.6 1.58 PL 0.604 43.45 $0.026^{\rm +0.041}_{-0.000}$ $2.26_{-0.19}^{\rm +0.25}$ 0.73
20 XLSS J022330.0-043002.4 02:23:30.08 -4:30:01.38 -0.39 II 1 20.0 2.35 PL 2.666 45.11 $4.002_{-2.008}^{\rm +2.901}$ 1.9 -
21 XLSS J022333.2-044925.1 02:23:33.14 -4:49:24.79 -0.54 I 1 20.6 1.15 PL 2.302 44.65 $0.173^{\rm +0.819}_{-0.147}$ 1.9 -
22 XLSS J022337.6-044006.3 02:23:37.54 -4:40:06.31 -0.63 I 1 19.6 0.53 PL 1.743 44.23 0.026 $2.38_{-0.18}^{\rm +0.39}$ -
23 XLSS J022347.1-050551.6 02:23:47.22 -5:05:51.99 -0.51 I 1 19.4 1.35 PL 2.329 44.71 0.026 $1.88_{-0.26}^{\rm +0.21}$ 0.86
24 XLSS J022351.2-042053.8 02:23:51.18 -4:20:54.33 0.14 II 2 19.2 2.94 PL 0.181 42.49 $2.382_{-1.424}^{\rm +3.114}$ 1.9 0.82
25 XLSS J022354.7-044818.1 02:23:54.67 -4:48:14.32 -0.67 I 1 17.6 0.77 PL 2.458 44.85 0.026 $2.48_{-0.24}^{\rm +0.26}$ 0.86
26 XLSS J022402.0-025256.1 02:24:02.02 -2:52:54.03 -0.44 I 2 17.7 3.96 PL 0.102 42.00 0.026 $1.51_{-0.32}^{\rm +0.33}$ -
27 XLSS J022402.5-051343.3 02:24:02.59 -5:13:43.31 0.23 II 2 17.7 2.65 PL+PL 0.084 42.32 $51.245_{-26.168}^{\rm +57.417}$ 1.9 -
28 XLSS J022410.9-050656.7 02:24:10.87 -5:06:54.01 -0.51 I 1 19.9 1.69 PL 2.314 44.86 0.026 $1.99_{-0.26}^{\rm +0.29}$ 1.62
29 XLSS J022413.7-032918.7 02:24:13.72 -3:29:18.73 0.05 II 1 17.6 8.61 PL+BB 0.429 43.79 $2.015_{-1.02755}^{\rm +1.18785}$ 1.9 0.61
30 XLSS J022435.8-030849.3 02:24:35.86 -3:08:52.05 -0.46 I 1 20.4 2.94 PL 1.946 44.87 0.026 $1.90_{-0.26}^{\rm +0.28}$ -
31b XLSS J022438.5-051150.4 02:24:38.59 -5:11:48.07 -0.53 II 1 -1 1.38 PL 2.283 44.71 $1.360_{-0.913}^{\rm +1.091}$ 1.9 -
32 XLSS J022438.9-033305.6 02:24:38.92 -3:33:05.63 -0.74 I 1 18.1 2.76 PL 1.676 44.81 0.026 $2.18_{-0.19}^{\rm +0.20}$ 1.18
33 XLSS J022439.7-042402.2 02:24:39.71 -4:23:59.07 -0.47 I 2 19.8 3.11 PL 0.478 43.40 $0.026^{\rm +0.025}_{-0.000}$ $1.78_{-0.23}^{\rm +0.24}$ 1.05
34 XLSS J022440.7-043656.8 02:24:40.72 -4:36:57.40 -0.59 I 1 19.7 0.86 PL 0.904 43.68 0.026 $2.41_{-0.27}^{\rm +0.29}$ -
35 XLSS J022446.9-030344.1 02:24:46.84 -3:03:46.93 -0.51 I 2 18.5 4.73 PL 0.301 43.13 $0.026^{\rm +0.067}_{-0.000}$ 1.9 -
36 XLSS J022507.4-043406.3 02:25:07.32 -4:34:04.00 -0.46 I 2 21.6 1.11 PL 0.617 43.21 0.026 $1.74_{-0.45}^{\rm +0.50}$ -
37 XLSS J022514.4-044658.8 02:25:14.30 -4:46:58.52 -0.61 I 1 18.0 1.81 PL 1.924 44.84 0.026 $2.29_{-0.21}^{\rm +0.23}$ 1.08
38 XLSS J022519.2-044714.3 02:25:19.34 -4:47:12.91 -0.47 I 1 20.9 1.06 PL 1.929 44.49 0.026 $2.04_{-0.42}^{\rm +0.47}$ -
39 XLSS J022521.1-043947.9 02:25:21.11 -4:39:48.98 -0.12 I 2 18.8 4.55 PL 0.265 43.00 $0.524_{-0.226}^{\rm +0.311}$ 1.9 0.93
40 XLSS J022521.2-032627.1 02:25:21.29 -3:26:28.73 -0.50 I 1 20.4 2.05 PL 1.067 44.17 0.026 $2.16_{-0.21}^{\rm +0.22}$ -
41 XLSS J022521.4-035210.0 02:25:21.32 -3:52:09.25 -0.42 I 2 17.4 4.85 PL 0.098 42.07 $0.026^{\rm +0.01}_{-0.000}$ $2.01_{-0.15}^{\rm +0.15}$ -
42 XLSS J022522.9-042649.5 02:25:22.91 -4:26:49.05 0.22 II 2 21.8 2.12 PL 1.029 44.10 $5.349_{-1.990}^{\rm +2.853}$ 1.9 -
43 XLSS J022524.5-025829.2 02:25:24.53 -2:58:29.63 -0.64 I 1 18.9 5.29 PL 1.229 44.65 $0.026^{\rm +0.069}_{-0.000}$ 1.9 -
44 XLSS J022524.5-044043.1 02:25:24.82 -4:40:43.61 -0.80 I glx 17.3 3.96 PL+GAc 0.263 42.92 $0.026^{\rm +0.029}_{-0.000}$ 1.9 1.34
45 XLSS J022525.3-034225.4 02:25:25.28 -3:42:24.26 -0.66 I 1 17.5 5.97 PL 1.326 44.85 0.026 $2.09_{-0.17}^{\rm +0.17}$ 0.87
46 XLSS J022527.6-035954.9 02:25:27.52 -3:59:53.89 -0.50 I 1 20.6 2.69 PL 0.494 43.36 0.026 $1.69_{-0.34}^{\rm +0.37}$ -
47 XLSS J022527.6-050639.2 02:25:27.62 -5:06:39.19 -0.48 I 1 20.1 2.43 PL 1.114 44.26 $0.227_{-0.227}^{\rm +0.402}$ $2.08_{-0.36}^{\rm +0.29}$ 0.63
48 XLSS J022529.4-050947.8 02:25:29.32 -5:09:46.95 -0.03 II 1 19.3 2.35 PL 1.288 44.37 $5.226_{-2.229}^{\rm +2.927}$ 1.9 -
49 XLSS J022533.6-050803.1 02:25:33.67 -5:08:02.44 -0.67 I 1 17.5 2.40 PL 1.179 44.26 $0.026^{\rm +0.032}_{-0.000}$ 1.9 -
50 XLSS J022537.0-050110.7 02:25:37.06 -5:01:09.38 -0.47 I 1 19.8 1.71 PL 1.937 44.72 0.026 $2.08_{-0.23}^{\rm +0.25}$ 0.60
51 XLSS J022538.3-042109.8 02:25:38.32 -4:21:09.32 -0.48 I 1 20.9 1.28 PL 0.742 43.50 0.026 $1.90_{-0.25}^{\rm +0.56}$ -
52 XLSS J022541.0-033521.9 02:25:40.84 -3:35:21.41 -0.59 I 1 18.3 2.27 PL 0.861 43.90 $0.026^{\rm +0.025}_{-0.000}$ 1.9 -
53 XLSS J022541.4-032624.2 02:25:41.30 -3:26:24.12 -0.31 I 2 18.5 12.93 PL 0.207 43.21 $0.253_{-0.068}^{\rm +0.079}$ 1.9 0.99
54 XLSS J022544.8-043736.7 02:25:44.98 -4:37:36.36 -0.35 II 1 22.6 1.01 PL 3.589 45.04 $3.501_{-2.538}^{\rm +2.445}$ 1.9 -
55 XLSS J022546.3-051159.1 02:25:46.38 -5:12:02.52 -0.42 I glx 17.0 1.55 PL 0.148 41.96 $0.026^{\rm +0.060}_{-0.000}$ $1.83_{-0.24}^{\rm +0.36}$ 0.93
56 XLSS J022548.7-025820.2 02:25:48.72 -2:58:20.02 -0.53 I 2 17.7 10.27 PL 0.286 43.44 $0.026^{\rm +0.019}_{-0.000}$ $1.93_{-0.09}^{\rm +0.10}$ 1.76
57 XLSS J022554.8-051355.5 02:25:54.84 -5:13:55.51 -0.38 II 1 20.0 1.00 PL 1.247 43.95 $1.566_{-1.200}^{\rm +2.202}$ 1.9 -
58 XLSS J022556.1-044725.2 02:25:56.14 -4:47:24.13 -0.50 I 1 20.0 3.51 PL 1.010 44.21 0.026 $1.73_{-0.27}^{\rm +0.20}$ 0.88
59 XLSS J022556.3-042540.9 02:25:56.28 -4:25:40.47 -0.69 I 2 21.5 1.13 PL 0.863 43.62 0.026 $1.97_{-0.34}^{\rm +0.37}$ -
60 XLSS J022557.6-045005.9 02:25:57.65 -4:50:04.42 -0.53 I 1 19.3 0.47 PL 2.263 44.33 0.026 $2.08_{-0.41}^{\rm +0.45}$ -
61 XLSS J022558.7-050055.8 02:25:58.73 -5:00:55.24 0.62 II 2 17.2 5.91 PL 0.148 42.80 $12.985_{-5.945}^{\rm +11.938}$ 1.9 -
62 XLSS J022601.5-033041.0 02:26:01.57 -3:30:39.66 -0.49 I 1 19.8 1.21 PL 1.455 44.19 $0.026^{\rm +0.167}_{-0.000}$ 1.9 -
63 XLSS J022604.5-045934.2 02:26:04.31 -4:59:29.48 -0.23 I,Fe 2 15.4 2.56 PL+GAd 0.054 41.25 $0.026^{\rm +0.024}_{-0.000}$ 1.9 -
64 XLSS J022607.1-032015.0 02:26:07.15 -3:20:15.02 -0.45 I 1 19.1 1.88 PL 2.321 44.86 $0.026_{-0.000}^{\rm +1.275}$ 1.9 -
65 XLSS J022607.8-041842.7 02:26:07.76 -4:18:42.07 -0.61 I 1 18.9 4.41 PL 0.495 43.72 $0.026^{\rm +0.023}_{-0.000}$ $2.48_{-0.18}^{\rm +0.23}$ 1.18
66 XLSS J022617.2-044725.3 02:26:17.23 -4:47:24.83 0.33 II 2 17.4 2.71 PL 0.140 42.25 $3.717_{-1.851}^{\rm +2.572}$ 1.9 -
67 XLSS J022617.3-050443.8 02:26:17.63 -5:04:43.83 -0.51 II 2 14.8 4.27 PL+GAe 0.054 41.56 $2.680_{-1.952}^{\rm +116.01}$ 1.9 -
68 XLSS J022617.7-043107.6 02:26:17.74 -4:31:07.09 -0.78 I 1 18.7 1.07 PL 0.705 43.53 0.026 $2.63_{-0.27}^{\rm +0.32}$ 1.23
69 XLSS J022620.5-031723.9 02:26:20.72 -3:17:26.93 -0.19 I,Fe 1 19.2 7.61 PL+GAf 0.691 44.21 $0.677_{-0.504}^{\rm +0.595}$ 1.9 -
70 XLSS J022622.3-042219.9 02:26:22.09 -4:22:20.30 -0.52 II 1 18.5 5.04 PL 2.011 45.15 $1.242_{-0.917}^{\rm +1.071}$ 1.9 -
71 XLSS J022629.2-043056.4 02:26:29.18 -4:30:56.24 -0.43 I 1 19.8 3.96 PL 2.031 45.05 $0.026_{-0.000}^{\rm +1.426}$ 1.9 -
72 XLSS J022643.6-043317.1 02:26:43.62 -4:33:16.57 0.58 II glx 17.8 2.52 PL 0.308 42.96 $3.861_{-2.211}^{\rm +3.607}$ 1.9 -
73 XLSS J022646.2-045156.4 02:26:46.25 -4:51:55.91 -0.61 I 1 20.9 0.63 PL 1.089 43.73 0.026 $2.32_{-0.38}^{\rm +0.44}$ -
74 XLSS J022646.9-041839.6 02:26:46.93 -4:18:39.15 -0.52 I 1 21.0 1.20 PL 1.581 44.27 $0.026^{\rm +0.682}_{-0.000}$ 1.9 -
75 XLSS J022649.0-042745.7 02:26:48.95 -4:27:45.74 -0.56 I 2 19.0 2.52 PL 0.327 42.94 $0.026^{\rm +0.080}_{-0.000}$ 1.9 -
76 XLSS J022649.4-041155.4 02:26:49.38 -4:11:53.79 -0.55 I 1 22.2 2.19 PL 1.157 44.15 0.026 $1.75_{-0.19}^{\rm +0.20}$ 0.95
77 XLSS J022651.7-045715.3 02:26:51.65 -4:57:13.34 -0.49 I 2 20.4 3.85 PL 0.331 43.12 0.026 $1.72_{-0.21}^{\rm +0.23}$ 0.65
78 XLSS J022652.6-050619.6 02:26:52.44 -5:06:20.18 -0.49 I 1 18.7 3.82 PL 1.618 44.76 0.026 $1.83_{-0.26}^{\rm +0.27}$ -
79 XLSS J022659.8-044430.4 02:26:59.78 -4:44:29.86 -0.54 I 1 20.8 0.45 PL 1.612 43.97 0.026 $2.15_{-0.44}^{\rm +0.54}$ -
80 XLSS J022701.3-040751.2 02:27:01.40 -4:07:49.95 -0.35 I 2 18.6 4.24 PL 0.220 42.75 $0.026^{\rm +0.038}_{-0.000}$ $1.56_{-0.14}^{\rm +0.16}$ 1.14
81 XLSS J022707.8-050816.5 02:27:07.78 -5:08:15.97 0.32 II 2 18.9 16.43 PL 0.356 43.90 $2.906_{-0.682}^{\rm +0.779}$ 1.9 -
82 XLSS J022708.5-050429.1 02:27:08.60 -5:04:23.92 -0.48 I 2 17.6 4.69 PL 0.148 42.30 0.026 $1.92_{-0.25}^{\rm +0.27}$ -
83 XLSS J022712.0-033353.1 02:27:11.84 -3:33:51.23 -0.40 I 2 18.5 2.70 PL 0.317 42.95 $0.026^{\rm +0.075}_{-0.000}$ $1.99_{-0.26}^{\rm +0.34}$ 0.78
84 XLSS J022712.7-044220.7 02:27:12.67 -4:42:20.25 0.14 II 2 18.4 4.69 PL 0.205 42.79 $1.461_{-0.582}^{\rm +0.777}$ 1.9 1.01
85 XLSS J022729.3-043226.9 02:27:29.48 -4:32:24.14 -0.51 I 1 19.6 1.52 PL 2.290 44.76 0.026 $1.89_{-0.23}^{\rm +0.24}$ -
86 XLSS J022731.9-032121.9 02:27:31.90 -3:21:22.13 -0.62 I 1 -1 0.53 PL 0.771 43.32 0.026 $2.58_{-0.67}^{\rm +0.89}$ -
87 XLSS J022732.2-032736.0 02:27:32.26 -3:27:36.29 -0.38 I 1 18.0 7.72 PL 1.782 45.11 $0.026_{-0.000}^{\rm +0.578}$ $1.69_{-0.18}^{\rm +0.27}$ 0.92
88 XLSS J022735.7-042023.2 02:27:35.75 -4:20:22.69 -0.55 I 2 -1 1.21 PL 0.886 43.66 $0.150_{-0.124}^{\rm +0.193}$ 1.9 -
89 XLSS J022739.7-050043.4 02:27:39.85 -5:00:43.16 -0.61 I 1 18.8 7.75 PL 0.447 43.80 $0.026_{-0.000}^{\rm +0.011}$ $2.18_{-0.09}^{\rm +0.13}$ 1.03
90 XLSS J022740.4-041855.5 02:27:40.68 -4:18:57.91 -0.17 I 1 22.4 0.71 PL 0.727 43.25 0.026 $2.016_{-0.71}^{\rm +0.94}$ -
91 XLSS J022748.4-041900.8 02:27:48.53 -4:19:00.82 -0.32 I 2 21.4 1.15 PL 0.689 43.32 0.026 $1.67_{-0.31}^{\rm +0.34}$ -
92 XLSS J022751.1-050101.2 02:27:51.34 -5:01:01.73 -0.47 I 1 -1 3.36 PL 2.174 45.01 0.026 $1.83_{-0.26}^{\rm +0.21}$ 0.47
93 XLSS J022754.5-050700.1 02:27:54.43 -5:06:58.27 -0.44 I 2 19.5 1.46 PL 0.436 43.00 $0.262^{\rm +0.204}_{-0.152}$ 1.9 -
94 XLSS J022756.8-050734.8 02:27:56.92 -5:07:34.97 -0.13 II 2 19.2 1.82 PL 0.492 43.23 $1.085_{-0.536}^{\rm +0.669}$ 1.9 -
95 XLSS J022809.1-041233.5 02:28:09.01 -4:12:31.12 -0.49 I 1 19.2 25.55 PL 0.878 44.91 0.026 $1.67_{-0.18}^{\rm +0.19}$ 1.86
96 XLSS J022810.6-050744.5 02:28:10.81 -5:07:43.84 -0.61 I 1 -1 0.84 PL 0.733 43.30 $0.026^{\rm +0.026}_{-0.000}$ 1.9 -
97 XLSS J022821.4-050954.8 02:28:21.54 -5:09:55.88 -0.63 I 1 20.7 1.01 PL 1.812 44.43 0.026 $2.11_{-0.29}^{\rm +0.31}$ -
98 XLSS J022843.3-051011.5 02:28:43.36 -5:10:11.61 -0.02 II 2 18.5 2.91 PL 0.271 42.64 $1.652_{-0.791}^{\rm +1.370}$ 1.9 -
99 XLSS J022851.3-051223.0 02:28:51.42 -5:12:23.07 -0.72 I 1 17.1 37.17 PL 0.315 44.10 $0.026^{\rm +0.008}_{-0.000}$ $2.11_{-0.05}^{\rm +0.05}$ 1.12
Column 1: internal sequence number;

Column 2: source name, using the convention defined in Pierre et al. (2007);

Column 3: right ascension of the X-ray source coming from the band-merged catalog from the [0.5-2] and [2-10] keV bands, which has been astrometrically corrected (Pierre et al. 2007);

Column 4: declination of the X-ray source coming from the band-merged catalog from the [0.5-2] and [2-10] keV bands, which has been astrometrically corrected (Pierre et al. 2007);

Column 5: hardness ratio between the hard (H) [2-10] keV band and the soft (S) [0.5-2] keV band computed using the formula  $\frac{H-S}{H+S}$;

Column 6: X-ray classification based on the X-ray spectral analysis: II ($N_{{\rm H}}$ > 1022 cm-2) and I ($N_{{\rm H}}$ < 1022 cm-2);

Column 7: optical classification based on the optical spectra: 1 (FWHM > 1500 km s-1) and 2 (FWHM < 1500 km s-1);

Column 8: R band magnitude from the SuperCosmos Sky Survey or from the VVDS;

Column 9: [2-10] keV band flux of the X-ray source derived from the fitted X-ray model;

Column 10: best-fit model (PL = absorbed power law; PL+BB = absorbed power law plus black body; PL+POW = absorbed power law plus unabsorbed power law; PL+GA = absorbed power law plus an additional emission line;

Column 11: spectroscopic redshift derived from the optical spectra;

Column 12: logarithm of the intrinsic (corrected for absorption, for both the galactic and the intrinsic column density) rest-frame luminosity in the [2-10] keV band [erg s-1];

Column 13: best-fit hydrogen column density [1022 cm-2] along with its error bar which represents a 90% confidence interval. The value 0.026 corresponds to the galactic value and has been fixed for the values without error bars;

Column 14: best-fit value for the photon index $\Gamma$ along with its error bars which are for a 90% confidence interval. For some objects we fixed $\Gamma$ to a value of 1.9 which is representative of a type 1 AGN.

Column 15: statistic which has been used. We present the value for the reduced chi square  $\chi^{2}_{\nu}$. Otherwise, Cash statistic has been used.

a The presence of an emission line around 4.0 keV (observed frame) is required.

b The spectroscopic redshift is tentative.

c The presence of an emission line around 0.9 keV (observed frame) is required, but see text.

d The presence of an emission line at 6.4 keV (source rest frame, consistent with Fe K) is required.

e The presence of an emission line around 0.7 keV (observed frame) is required, but see text.

f The presence of an emission line at 6.4 keV (source rest frame, consistent with Fe K) is required.


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