Table C.2: Class III objects.
(1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17)
# Object Coordinates J H K $A_{\rm J}$ Lg $L_\ast$ Lg $T_{\rm {eff}}$ Lg $M_\ast$ EW(Pa$_\beta$) Inst. L(Pa$_\beta$) $L_{\rm acc}$ $\dot M_{\rm acc}$ Other
  (ISO#) (J2000.0) (mag) (mag) ($L_\odot $) (K) ($M_\odot$) (Å)   ($L_\odot $) ($L_\odot $) ($M_\odot$/y) names
1 $\rho$Oph-ISO 005 16 25 50.53 -24 39 14.50 9.98 8.82 8.33 1.4 0.21 3.59 -0.26 <-0.5 S <-4.42 <-2.01 <-8.86 IRS10
2 $\rho$Oph-ISO 011 16 26 3.29 -24 17 46.50 10.67 9.58 9.12 1.2 -0.18 3.54 -0.49 <-0.8 I <-4.57 <-2.22 <-8.92 VSSG19
3 $\rho$Oph-ISO 014 16 26 7.64 -24 27 41.40 14.68 11.85 10.41 5.4 -0.03 3.56 -0.40 <-0.5 S <-4.64 <-2.31 <-9.07 B162607-242742
4 $\rho$Oph-ISO 016 16 26 9.31 -24 34 12.10 7.74 6.95 6.50 - - - - +5.7 S - - - SR3
5 $\rho$Oph-ISO 018 16 26 15.81 -24 19 22.10 14.03 11.40 10.03 4.8 -0.02 3.56 -0.40 <-0.5 S <-4.63 <-2.29 <-9.06 SKS1-7
6 $\rho$Oph-ISO 028 16 26 21.02 -24 15 41.50 12.78 10.38 9.27 4.5 0.41 3.62 -0.14 <-0.6 S <-4.16 <-1.66 <-8.58 B162621-241544
7 $\rho$Oph-ISO 044 16 26 28.48 -24 15 41.20 15.31 12.37 10.78 5.4 -0.29 3.52 -0.56 <-0.7 S <-4.73 <-2.43 <-9.09 B162628-241543
8 $\rho$Oph-ISO 064 16 26 43.76 -24 16 33.30 12.98 10.76 9.60 3.8 0.00 3.56 -0.38 <-0.7 S <-4.46 <-2.07 <-8.84 VSSG11
9 $\rho$Oph-ISO 066 16 26 44.30 -24 43 18.00 10.99 10.02 9.57 0.7 -0.51 3.49 -0.69 <-0.8 S <-4.87 <-2.62 <-9.20 GY112
10 $\rho$Oph-ISO 069 16 26 47.05 -24 44 29.90 12.33 11.12 10.56 1.3 -0.83 3.46 -0.89 <-0.4 S <-5.47 <-3.44 <-9.92 GY122
11 $\rho$Oph-ISO 073 16 26 49.23 -24 20 2.90 12.20 9.85 8.69 4.2 0.53 3.63 -0.07 <-0.4 S <-4.23 <-1.75 <-8.72 VSSG3
12 $\rho$Oph-ISO 074 16 26 51.12 -24 20 50.50 13.81 11.48 10.21 - - - - +1.5 S - - - IRS20/GY143
13 $\rho$Oph-ISO 082 16 26 56.92 -24 28 37.10 17.46 14.75 12.81 3.8 -1.94 3.41 -1.55 <-2.0 I <-5.77 <-3.85 <-10.12 GY163
14 $\rho$Oph-ISO 091 16 27 1.62 -24 21 37.00 14.25 11.07 9.39 6.1 0.49 3.63 -0.09 +0.9 S - - - VSSG8/GY181
15 $\rho$Oph-ISO 113 16 27 11.68 -24 23 42.00 14.21 11.62 10.11 - - - - +4.0 S - - - IRS32/GY228
16 $\rho$Oph-ISO 114 16 27 11.71 -24 38 32.10 0.00 15.06 11.06 16.2 1.71 3.79 0.64 <-8.0 I - - - WL19/GY227
17 $\rho$Oph-ISO 135 16 27 22.91 -24 17 57.40 13.33 10.76 9.45 - - - - +1.3 S - - - WSSG22
18 $\rho$Oph-ISO 148 16 27 31.06 -24 34 3.20 13.43 11.36 10.39 3.6 -0.27 3.53 -0.55 <-0.5 S <-4.86 <-2.61 <-9.28 GY283
19 $\rho$Oph-ISO 152+ 16 27 32.68 -24 33 23.90 16.15 12.74 10.90 6.6 -0.10 3.55 -0.45 <-2.0 S <-4.10 <-1.58 <-8.31 GY289
20 $\rho$Oph-ISO 156 16 27 35.26 -24 38 33.40 11.28 10.23 9.67 0.8 -0.62 3.48 -0.76 <-0.4 S <-5.27 <-3.17 <-9.71 GY295
21 $\rho$Oph-ISO 158 16 27 36.52 -24 28 33.30 11.99 11.38 11.15 0.0 -1.29 3.44 -1.16 <-1.0 S <-5.48 <-3.46 <-9.86 GY297
22 $\rho$Oph-ISO 169a 16 27 41.49 -24 35 37.70 14.30 11.83 10.56 4.4 -0.30 3.52 -0.57 +0.7 S - - - GY322
23 $\rho$Oph-ISO 169b 16 27 41.64 -24 35 41.10 14.74 12.48 11.26 3.8 -0.78 3.46 -0.85 <-0.9 S <-5.06 <-2.89 <-9.38 GY322
24 $\rho$Oph-ISO 180 16 27 49.87 -24 25 40.20 9.44 8.12 7.30 - - - - +6.3 S - - - VSSG14/GY372
25 $\rho$Oph-ISO 181 16 27 50.51 -24 39 3.10 14.47 12.74 11.85 - - - - +5.5 S - - - GY373
26 $\rho$Oph-ISO 183 16 27 51.92 -24 46 29.60 14.05 11.61 10.37 4.3 -0.22 3.53 -0.52 <-0.7 S <-4.66 <-2.34 <-9.03 GY377
27 $\rho$Oph-ISO 186 16 27 55.65 -24 44 50.90 12.34 11.15 10.47 1.0 -0.98 3.45 -0.97 <-1.5 S <-5.03 <-2.84 <-9.29 GY398
28 $\rho$Oph-ISO 189 16 27 57.87 -24 36 2.20 15.37 12.98 11.83 4.4 -0.79 3.46 -0.86 <-1.5 S <-4.86 <-2.61 <-9.10 GY412
29 $\rho$Oph-ISO 192 16 28 5.78 -24 33 55.00 16.75 14.00 12.56 5.1 -1.08 3.45 -1.04 <-2.0 I <-4.99 <-2.79 <-9.23 GY472
30 $\rho$Oph-ISO 197 16 28 21.71 -24 42 47.10 16.83 14.03 12.44 4.9 -1.18 3.45 -1.10 <-1.0 I <-5.39 <-3.32 <-9.74 B162821-244246
31 $\rho$Oph-ISO 198 16 28 32.66 -24 22 44.90 8.73 7.48 6.85 1.3 0.76 3.67 0.07 <-0.4 S <-4.02 <-1.47 <-8.52 SR20
                                 
# Object Coordinates J H K $A_{\rm J}$ Lg $L_\ast$ Lg $T_{\rm {eff}}$ Lg $M_\ast$ EW(Br$_\gamma$) Inst. L(Br$_\gamma$) $L_{\rm acc}$ $\dot M_{\rm acc}$ Other
  (ISO#) (J2000.0) (mag) (mag) ($L_\odot $) (K) ($M_\odot$) (Å)   ($L_\odot $) ($L_\odot $) ($M_\odot$/y) names
32 $\rho$Oph-ISO 047 16 26 31.04 -24 31 5.20 14.96 12.32 10.86 4.6 -0.49 3.50 -0.68 <-1.0 S <-4.71 <-1.34 <-7.93 IRS14/GY54
33 $\rho$Oph-ISO 113 16 27 11.68 -24 23 42.00 14.21 11.62 10.11 - - - - +5.6 S - - - IRS32/GY228
34 $\rho$Oph-ISO 157 16 27 35.67 -24 45 32.62 12.71 11.47 10.88 1.4 -0.95 3.46 -0.96 <-1.0 S <-5.54 <-2.08 <-8.54 GY296
35 $\rho$Oph-ISO 179 16 27 49.97 -24 44 17.00 13.85 11.97 10.94 2.8 -0.84 3.46 -0.89 <-0.7 S <-5.37 <-1.94 <-8.42 GY370


Column 1: running number; Col. 2: ISOCAM number from BKA01; a + sign marks objects with a companion not resolved in the 2MASS photometry; Cols. 3 and 4: J2000 coordinates; Cols. 5-7: 2MASS J, H, K photometry; Col. 8: J-band extinction; Cols. 9-11: stellar luminosity, effective temperature and mass, determined as described in the text; Col. 12: line equivalent width: negative values for emission lines; Col. 13: instrument used in the observations: S = SOFI/NTT, I = ISAAC/UT1; Col. 14: line luminosity; Cols. 15,16: accretion luminosity and mass accretion rate; Col. 17: other names.


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