Title: Trigonometric Parallaxes Of High-Mass Star Forming Regions: Our View of The Milky Way Authors: Reid M.J., Menten K.M., Brunthaler A., Zheng X.W., Dame T.M., Xu Y., Li J., Sakai N., Wu Y., Immer K., Zhang B., Sanna A., Moscadelli L., Rygl K.L.J., Bartkiewicz A., Hu B., Quiroga-Nunez L.H., van Langevelde .H.J. Table: Parallaxes & Proper Motions of High-mass Star Forming Regions ================================================================================ Byte-by-byte Description of file: apjab4a11t1_mrt.txt -------------------------------------------------------------------------------- Bytes Format Units Label Explanations -------------------------------------------------------------------------------- 1- 13 A13 --- Name Source name 16- 30 A15 --- Alias Alias name 32- 33 I2 h RAh Hour of Right Ascension (J2000) 35- 36 I2 min RAm Minute of Right Ascension (J2000) 38- 44 F7.4 s RAs Second of Right Ascension (J2000) 47 A1 --- DE- Sign of the Declination (J2000) 48- 49 I2 deg DEd Degree of Declination (J2000) 51- 52 I2 arcmin DEm Arcminute of Declination (J2000) 54- 59 F6.3 arcsec DEs Arcsecond of Declination (J2000) 63- 67 F5.3 mas plx Trigonometric Parallax (1) 69- 73 F5.3 mas e_plx Uncertainty in plx 77- 82 F6.2 mas/yr pmE Eastward Proper Motion (2,3) 84- 87 F4.2 mas/yr e_pmE Uncertainty in pmE 91- 96 F6.2 mas/yr pmN Northward Proper Motion (3) 98-101 F4.2 mas/yr e_pmN Uncertainty in pmN 105-108 I4 km/s VLSR Local Standard of Rest velocity (3) 110-111 I2 km/s e_VLSR Uncertainty in VLSR 114-116 A3 --- Arm Spiral arm designator (4) 119-129 A11 --- Ref Reference designators (5) -------------------------------------------------------------------------------- Note (1): Parallax uncertainties for sources with multiple (N) maser spots have been adjusted upwards by sqrt(N), if not done so in the original publications. Note (2): Motion in RA multiplied by cos(Dec) Note (3): Some parameter values listed here are preliminary ones and may be slightly different from final values appearing in published papers. Motion components and their uncertainties are meant to reflect that of the central star that excites the masers, and may be larger than formal measurement uncertainties quoted in some papers. Note (4): GC = Galactic Center region; Con = Connecting arm; 3kN/F = 3-kpc arms near/far; N1N/F = Norma arm quadrant 1 near/far; N4N/F = Norma arm quadrant 4 near/far; Out = Outer arm; ScN/F = Scutum arm near/far; CtN/F = Centaurus arm near/far; OSC = Outer Scutum Centaurus arm SgN/F = Sagittarius arm near/far; CrN/F = Carina arm near/far; Loc = Local arm; Per = Perseus arm; LoS = Local arm spur; AqS = Aquarius spur; ??? = Unassigned. Note (5): 1 = BeSSeL Survey unpublished 2 = Wu et al. (2014) [2014A&A...566...17W]; 3 = Reid et al. (2009c) [2009ApJ...705.1548R]; 4 = Sato et al. (2014) [2014ApJ...793...72S]; 5 = Sanna et al. (2009) [2009ApJ...706..464S]; 6 = Zhang et al. (2014) [2014ApJ...781...89Z]; 7 = Sanna et al. (2014) [2014ApJ...781..108S]; 8 = Immer etal. (2013) [2013A&A...553..117I]; 9 = Sato et al. (2010a) [2010PASJ...62..287S]; 10 = Xu et al. (2011) [2011ApJ...733...25X]; 11 = Brunthaler et al. (2009) [2009ApJ...693..424B]; 12 = Bartkiewicz et al. (2008) [2008A&A...490..787B]; 13 = Kurayama etal. (2011) [2011PASJ...63..513K]; 14 = Zhang et al. (2009) [2009ApJ...693..419Z]; 15 = Zhang et al. (2013) [013aApJ...775...79Z]; 16 = Xu et al. (2009) [2009ApJ...693..413X]; 17 = Sato et al. (2010b) [2010ApJ...720.1055S]; 18 = Oh et al. (2010) [2010PASJ...62..101O]; 19 = Rygl et al. (2010) [2010A&A...511....2R]; 20 = Nagayama et al. (2011) [2011PASJ...63...23N]; 21 = Xu et al. (2013) [2013ApJ...769...15X]; 22 = Sanna et al. (2012) [2012ApJ...745...82S]; 23 = Ando et al. (2011) [2011PASJ...63...45A]; 24 = Moscadelli etal. (2011) [2011A&A...526...66M]; 25 = Rygl et al. (2012) [2011A&A...539...79R]; 26 = Zhang et al. (2012b) [2012A&A...544...42Z]; 27 = Hachisuka et al. (2015) [2015ApJ...800....2H]; 28 = Choi et al. (2014) [2014ApJ...790...99C]; 29 = Hirota et al. (2008) [2008PASJ...60..961H]; 30 = Moscadelli et al. (2009) [2009ApJ...693..406M]; 31 = Moellenbrock, Claussen & Goss (2009) [2009ApJ...694..192M]; 32 = Sato et al. (2008) [2008PASJ...60..975S]; 33 = Xu et al. (2006) [2006Sci...311...54X]; 34 = Hachisuka etal. (2006) [2006ApJ...645..337H]; 35 = Asaki et al. (2010) [2010ApJ...721..267A]; 36 = Hachisuka et al. (2009) [2009ApJ...696.1981H]; 37 = Krishnan et al. (2015) [2015ApJ...805..129K]; 38 = Honma et al. (2011) [2007PASJ...63...17H]; 39 = Niinuma etal. (2011) [2011PASJ...63....9N]; 40 = Reid et al. (2009a) [2009ApJ...693..397R]; 41 = Shiozaki et al. (2011) [2011PASJ...63.1219S]; 42 = Honma et al. (2007) [2007PASJ...59..889H]; 43 = Sandstrom et al. (2007) [2007ApJ...667.1161S]; 44 = Menten etal. (2007) [2007A&A...474..515M]; 45 = Kim et al. (2008) [2008PASJ...60..991K]; 46 = Choi et al. (2008) [2008PASJ...60.1007C]; 47 = Zhang et al. (2012a) [2012ApJ...744...23Z]; 48 = Sparks et al. (2008) [2008AJ....135..605S]; 49 = Burns et al. (2014) [2014ApJ...797...39B]; 50 = Burns et al. (2017) [2017MNRAS.467.2367B]; 51 = Zhang et al. (2019) [2019AJ....157..200Z]; 52 = K. Immer et al. (2019, in preparation); 53 = J. Li et al. (2019, in preparation); 54 = K. Rygl et al. (2019, in preparation); 55 = Y. Wu et al. (2019) [2019ApJ...874...94W]; 56 = B. Hu et al. (2019, in preparation); 57 = Kounkel et al. (2017) [2017ApJ...834..142K]; 58 = Sakai et al. (2019) [2019ApJ...876...30S]; 59 = A. Sanna et al. (2019, in preparation); 60 = L. Moscadelli et al. (2019, in preparation); 61 = Krishnan et al. (2017) [2017MNRAS.465.1095K]; 62 = Yamauchiet al. (2016) [2016PASJ...68...60Y]; 63 = Sanna et al. (2017) [2017Sci...358..227S]; 64 = Xu et al. (2018) [2018ApJ...859...14S]; 65 = Quiroga-Nunez et al. (2019) [2019A&A...625...70N]; 66 = Asaki et al. (2014) [2014ApJ...787...54A]; 67 = Chibueze etal. (2016) [2016MNRAS.460.1839C]; 68 = A. Bartkiewicz et al. (2019, in preparation); 69 = Nagayama et al. (2014) [2014PASJ...67...65N]; 70 = Xu et al. (2016) [2016Sci.....2..878X]; 71 = Nagayama et al. (2015) [2015PASJ...67...66N]; 72 = Dzib et al. (2016) [2016ApJ...826..201D]; 73 = Sakai et al. (2015) [2015PASJ...67...69S]; 74 = Burns et al. (2014a) [2014PASJ...66..102B]; 75 = Imai et al. (2012) [2012PASJ...64...98I]; 76 = Chibueze et al. (2014) [2014PASJ...66..104C]; 77 = Kusunoet al. (2013) [2013ApJ...774..107K]; 78 = Sakai et al. (2012) [2012PASJ...64..108S]. -------------------------------------------------------------------------------- G305.20+00.01 13 11 16.8912 -62 45 55.008 0.250 0.050 -6.90 0.33 -0.52 0.33 -38 5 CtN 61 G339.88-01.25 16 52 4.6776 -46 08 34.404 0.480 0.080 -1.60 0.52 -1.90 0.52 -34 3 CtN 37 G348.70-01.04 17 20 4.0360 -38 58 30.920 0.296 0.026 -0.73 0.31 -2.83 0.59 -9 5 CtN 1 G351.44+00.65 NGC6334 17 20 54.6010 -35 45 8.620 0.752 0.069 0.31 0.58 -2.17 0.90 -8 3 CrN 2,76 G359.13+00.03 17 43 25.6109 -29 39 17.551 0.165 0.031 -3.98 0.36 -6.50 0.79 -1 10 GC 52 G359.61-00.24 17 45 39.0697 -29 23 30.265 0.375 0.021 1.00 0.40 -1.50 0.50 21 5 CtN 59,52 G359.93-00.14 17 46 1.9183 -29 03 58.674 0.181 0.029 -1.33 0.44 -1.80 0.78 -10 10 GC 52 G000.31-00.20 17 47 9.1092 -28 46 16.278 0.342 0.042 0.21 0.39 -1.76 0.64 18 3 ScN 53 G000.37+00.03 17 46 21.4012 -28 35 39.821 0.125 0.047 -0.77 0.28 -2.67 0.40 37 10 3kF 7 G000.67-00.03 SgrB2 17 47 20.0000 -28 22 40.000 0.129 0.012 -0.78 0.40 -4.26 0.40 62 5 GC 3 G001.00-00.23 17 48 55.2845 -28 11 48.240 0.090 0.057 -3.87 0.28 -6.23 0.56 2 5 ??? 51 G001.14-00.12 17 48 48.5410 -28 01 11.350 0.194 0.161 0.82 0.33 -3.59 0.69 -16 3 Nor 51 G002.70+00.04 17 51 45.9766 -26 35 57.070 0.101 0.105 -3.13 0.87 -9.36 1.24 93 5 ??? 51 G005.88-00.39 18 00 30.2801 -24 04 4.576 0.334 0.020 0.18 0.34 -2.26 0.34 9 5 ScN 4 G006.79-00.25 18 01 57.7525 -23 12 34.245 0.288 0.021 -0.30 0.30 -1.30 0.31 22 5 Nor 59 G007.47+00.05 18 02 13.1823 -22 27 58.981 0.049 0.006 -2.43 0.10 -4.43 0.16 -14 10 OSC 62,63 G008.34-01.00 VXSgr 18 08 4.0510 -22 13 26.566 0.640 0.040 0.36 0.76 -2.92 0.78 5 5 SgN 64 G009.21-00.20 18 06 52.8421 -21 04 27.878 0.303 0.096 -0.41 0.45 -1.69 0.50 43 5 ScN 53 G009.62+00.19 18 06 14.6600 -20 31 31.700 0.194 0.023 -0.58 0.13 -2.49 0.29 2 3 3kN 5 G010.32-00.15 18 09 1.4549 -20 05 7.854 0.343 0.035 -1.03 0.36 -2.42 0.50 10 5 ScN 54,52 G010.47+00.02 18 08 38.2290 -19 51 50.262 0.117 0.008 -3.86 0.19 -6.40 0.14 69 5 Con 7 G010.62-00.33 18 10 17.9849 -19 54 4.646 0.362 0.076 -0.36 0.39 -1.86 0.38 -6 5 3kN 52 G010.62-00.38 18 10 28.5628 -19 55 48.738 0.202 0.019 -0.37 0.50 -0.60 0.25 -3 5 3kN 7 G011.10-00.11 18 10 28.2470 -19 22 30.216 0.246 0.014 -0.23 0.38 -2.01 0.41 29 5 ScN 53 G011.49-01.48 18 16 22.1327 -19 41 27.219 0.800 0.033 1.42 0.52 -0.60 0.65 11 3 SgN 2 G011.91-00.61 18 13 58.1205 -18 54 20.278 0.297 0.050 0.66 0.69 -1.36 0.75 37 5 ScN 4 G012.02-00.03 18 12 1.8400 -18 31 55.800 0.106 0.008 -4.11 0.11 -7.76 0.28 108 5 3kN 7 G012.68-00.18 W33B 18 13 54.7457 -18 01 46.588 0.416 0.028 -1.00 0.95 -2.85 0.95 58 10 ScN 8 G012.81-00.19 W33M 18 14 14.0600 -17 55 11.300 0.343 0.037 -0.40 0.70 -0.25 0.70 34 5 ScN 8 G012.88+00.48 18 11 51.4450 -17 31 29.412 0.404 0.044 0.15 0.43 -2.30 0.52 35 7 ScN 8,10 G012.90-00.24 W33A 18 14 34.4366 -17 51 51.891 0.408 0.025 0.19 0.40 -2.52 0.40 36 5 ScN 8 G012.90-00.26 W33A 18 14 39.5714 -17 52 0.382 0.396 0.032 -0.36 0.40 -2.22 0.40 37 5 ScN 8 G013.71-00.08 18 15 36.9814 -17 04 32.108 0.264 0.014 -0.29 0.28 -2.16 0.29 44 5 Nor 7 G013.87+00.28 18 14 35.8356 -16 45 35.869 0.254 0.024 -0.25 2.00 -2.49 2.00 48 10 ScN 4 G014.33-00.64 18 18 54.6744 -16 47 50.264 0.893 0.101 0.95 1.50 -2.40 1.30 22 5 SgN 9 G014.63-00.57 18 19 15.5407 -16 29 45.786 0.546 0.022 0.22 1.20 -2.07 1.20 19 5 SgN 2 G015.03-00.67 18 20 24.8111 -16 11 35.316 0.499 0.026 0.68 0.53 -1.42 0.54 22 3 SgN 10,67 G015.66-00.49 18 20 59.7470 -15 33 9.800 0.220 0.029 -1.16 0.24 -5.30 0.30 -4 5 3kN 59 G016.58-00.05 18 21 9.0840 -14 31 48.556 0.279 0.023 -1.13 0.34 -2.59 0.35 60 5 ScN 4 G016.86-02.15 18 29 24.4085 -15 16 4.141 0.426 0.092 0.32 0.49 -2.48 0.56 17 3 SgN 54 G017.02-02.40 18 30 36.2931 -15 14 28.384 0.531 0.108 0.10 0.61 -2.81 0.76 22 3 SgN 54 G017.55-00.12 IRC-10414 18 23 17.9084 -13 42 47.146 0.497 0.038 -0.04 1.04 -2.01 1.04 44 10 SgN 59 G017.63+00.15 18 22 26.3821 -13 30 11.951 0.669 0.019 -0.26 1.41 -1.53 1.41 25 10 SgN 54 G018.34+01.76 18 17 58.1254 -12 07 24.893 0.500 0.019 -0.32 0.53 -1.99 0.76 28 3 SgN 54 G018.87+00.05 18 25 11.3530 -12 27 36.546 0.297 0.049 -0.17 0.32 -1.90 0.37 39 3 ScN 53 G019.00-00.02 18 25 44.7778 -12 22 45.886 0.247 0.063 -1.77 0.29 -4.00 0.42 56 5 Nor 60 G019.36-00.03 18 26 25.7796 -12 03 53.267 0.352 0.069 -1.12 0.38 -2.50 0.46 27 3 ScN 53 G019.49+00.11 18 26 9.1691 -11 52 51.354 0.326 0.100 -3.60 0.42 -8.20 1.03 121 5 ??? 60 G022.35+00.06 18 31 44.1199 -09 22 12.336 0.231 0.108 -1.70 0.28 -3.90 0.31 80 5 Nor 60 G023.00-00.41 18 34 40.2800 -09 00 38.360 0.205 0.015 -1.72 0.22 -4.12 0.37 79 5 Nor 11,68 G023.20-00.37 18 34 55.1794 -08 49 15.206 0.239 0.034 -1.45 0.50 -3.40 0.51 82 10 Nor 68 G023.25-00.24 18 34 31.2397 -08 42 47.306 0.169 0.051 -1.72 0.23 -4.09 0.28 63 3 ScN 52 G023.38+00.18 18 33 14.3240 -08 23 57.500 0.208 0.025 -1.57 0.23 -3.92 0.26 75 3 Nor 60 G023.43-00.18 18 34 39.1870 -08 31 25.405 0.170 0.032 -1.93 0.15 -4.11 0.13 97 3 Nor 11 G023.65-00.12 18 34 51.5650 -08 18 21.305 0.313 0.039 -1.32 0.20 -2.96 0.20 81 3 ScN 12 G023.70-00.19 18 35 12.3610 -08 17 39.530 0.161 0.024 -3.17 0.18 -6.38 0.21 73 5 Nor 7 G024.63-00.32 18 37 22.7091 -07 31 42.093 0.242 0.045 -0.31 0.27 -2.73 0.30 43 5 ScN 53 G024.78+00.08 18 36 12.5614 -07 12 10.840 0.150 0.016 -2.62 0.16 -5.08 0.20 111 3 Nor 60 G024.85+00.08 18 36 18.3867 -07 08 50.834 0.176 0.016 -2.42 0.19 -5.23 0.26 111 5 Nor 53 G025.70+00.04 18 38 3.1450 -06 24 15.190 0.098 0.029 -2.89 0.11 -6.20 0.36 93 5 ScF 4 G027.36-00.16 18 41 51.0570 -05 01 43.443 0.125 0.042 -1.81 0.11 -4.11 0.27 92 3 ScF 10 G028.14-00.00 18 42 42.5896 -04 15 35.128 0.158 0.023 -2.11 0.17 -4.85 0.17 100 5 ScF 52 G028.30-00.38 18 44 21.9666 -04 17 39.904 0.221 0.022 -1.62 0.23 -3.97 0.23 87 5 ScN 53 G028.39+00.08 18 42 51.9822 -03 59 54.494 0.231 0.015 -1.40 0.24 -3.26 0.24 75 5 ScN 53 G028.83-00.25 18 44 51.0865 -03 45 48.378 0.200 0.040 -1.89 0.22 -4.54 0.22 87 5 ScN 53 G028.86+00.06 18 43 46.2233 -03 35 29.846 0.201 0.019 -3.19 0.42 -5.72 0.48 100 10 ScF 52 G029.86-00.04 W43S 18 45 59.5708 -02 45 6.581 0.221 0.030 -2.33 0.26 -5.47 0.31 101 3 ScF 6,52 G029.95-00.01 W43S 18 46 3.7402 -02 39 22.328 0.207 0.019 -2.36 0.20 -5.38 0.20 99 5 ScF 6,52 G029.98+00.10 18 45 39.9622 -02 34 32.581 0.156 0.010 -0.94 0.32 -3.49 0.32 109 10 ScF 52 G030.19-00.16 18 47 3.0698 -02 30 36.268 0.212 0.010 -2.08 0.22 -3.80 0.25 108 3 ScN 53 G030.22-00.18 18 47 8.2979 -02 29 29.330 0.284 0.032 -0.87 0.31 -4.70 0.34 113 3 ScN 52 G030.41-00.23 18 47 40.7589 -02 20 30.907 0.253 0.021 -1.98 0.28 -4.07 0.29 103 3 ScN 52 G030.70-00.06 18 47 36.7983 -02 00 54.341 0.153 0.020 -2.33 0.18 -4.95 0.18 89 3 ScF 52 G030.74-00.04 18 47 39.7248 -01 57 24.974 0.326 0.055 -2.38 0.38 -4.46 0.38 88 3 ScN 52 G030.78+00.20 18 46 48.0864 -01 48 53.946 0.140 0.032 -1.85 0.16 -3.91 0.19 82 5 ScN 52 G030.81-00.05 18 47 46.9751 -01 54 26.416 0.321 0.037 -2.34 0.35 -5.66 0.35 105 5 ScF 52 G030.97-00.14 18 48 22.0433 -01 48 30.750 0.294 0.022 -2.14 0.31 -3.82 0.34 77 3 ScN 52 G031.24-00.11 18 48 45.0808 -01 33 13.200 0.076 0.014 -2.80 0.19 -5.54 0.19 24 10 Per 55 G031.28+00.06 W43M 18 48 12.3760 -01 26 28.778 0.210 0.029 -1.99 0.19 -4.58 0.22 110 5 ScN 6,53 G031.41+00.30 18 47 34.3105 -01 12 46.659 0.267 0.029 -1.58 0.70 -5.82 0.70 97 15 ScN 52 G031.58+00.07 W43M 18 48 41.6740 -01 09 59.774 0.183 0.032 -1.97 0.40 -4.43 0.40 96 5 ScF 6 G032.04+00.05 18 49 36.5754 -00 45 45.539 0.198 0.015 -2.05 0.21 -4.77 0.21 98 5 ScN 4,52 G032.74-00.07 18 51 21.8624 -00 12 6.220 0.126 0.016 -3.15 0.27 -6.10 0.29 37 10 SgF 55 G032.79+00.19 18 50 30.7330 -00 01 59.280 0.103 0.031 -2.94 0.24 -6.07 0.25 16 10 Per 51 G033.09-00.07 18 51 59.4085 +00 06 34.262 0.134 0.016 -2.46 0.15 -5.32 0.15 100 5 ScF 52 G033.39+00.00 18 52 14.6412 +00 24 54.374 0.113 0.029 -2.48 0.13 -5.36 0.13 102 5 ScF 53 G033.64-00.22 18 53 32.5630 +00 31 39.100 0.131 0.020 -3.10 0.15 -6.27 0.14 60 3 SgF 6 G034.41+00.23 18 53 18.0319 +01 25 25.500 0.340 0.011 0.12 0.72 -4.18 0.72 60 10 SgN 56 G034.79-01.38 18 59 45.9838 +01 01 18.947 0.381 0.020 -0.31 0.62 -2.80 0.72 45 5 SgN 54 G035.02+00.34 18 54 0.6576 +02 01 19.217 0.430 0.040 -0.92 0.90 -3.61 0.90 52 5 SgN 2 G035.19-00.74 18 58 13.0517 +01 40 35.674 0.456 0.045 -0.18 0.50 -3.63 0.50 30 7 SgN 14 G035.20-01.73 19 01 45.5420 +01 13 32.690 0.412 0.014 -0.68 0.44 -3.60 0.44 43 5 SgN 14,54 G035.79-00.17 18 57 16.8905 +02 27 58.007 0.113 0.013 -2.96 0.12 -6.23 0.14 61 5 SgF 55 G036.11+00.55 18 55 16.7927 +03 05 5.392 0.246 0.056 -1.41 0.26 -3.76 0.27 75 5 AqS 56 G037.42+01.51 18 54 14.3481 +04 41 39.647 0.532 0.021 -0.45 0.35 -3.69 0.39 41 3 SgN 2 G037.47-00.10 19 00 7.1430 +03 59 52.975 0.088 0.030 -2.63 0.07 -6.19 0.15 58 3 SgF 55 G038.03-00.30 19 01 50.4676 +04 24 18.900 0.095 0.022 -3.01 0.06 -6.20 0.11 60 3 SgF 55 G038.11-00.22 19 01 44.1513 +04 30 37.400 0.242 0.035 -2.79 0.27 -5.25 0.31 76 5 AqS 56 G040.28-00.21 19 05 41.2146 +06 26 12.698 0.297 0.019 -1.80 0.31 -3.82 0.33 74 5 AqS 56 G040.42+00.70 19 02 39.6192 +06 59 9.052 0.078 0.013 -2.95 0.09 -5.48 0.10 10 5 Per 56 G040.62-00.13 19 06 1.6288 +06 46 36.140 0.080 0.021 -2.69 0.09 -5.60 0.25 31 3 Per 55 G041.15-00.20 19 07 14.3676 +07 13 18.025 0.125 0.018 -2.79 0.14 -5.85 0.16 60 3 SgF 55 G041.22-00.19 19 07 21.3772 +07 17 8.115 0.113 0.022 -2.82 0.13 -5.89 0.16 59 5 SgF 55 G042.03+00.19 19 07 28.1834 +08 10 53.433 0.071 0.012 -2.40 0.09 -5.64 0.11 12 5 Per 56 G043.03-00.45 19 11 38.9819 +08 46 30.665 0.130 0.019 -3.03 0.15 -6.56 0.20 56 5 SgF 55 G043.16+00.01 W49N 19 10 13.4100 +09 06 12.800 0.090 0.007 -2.88 0.20 -5.41 0.20 10 5 Per 15 G043.79-00.12 OH43.8-0.1 19 11 53.9868 +09 35 50.325 0.166 0.010 -3.02 0.36 -6.20 0.36 44 10 SgF 2 G043.89-00.78 19 14 26.3906 +09 22 36.568 0.134 0.013 -3.11 0.15 -5.35 0.21 52 3 SgF 2,55 G045.07+00.13 19 13 22.0427 +10 50 53.336 0.129 0.007 -3.21 0.26 -6.11 0.26 59 5 SgF 2 G045.45+00.06 19 14 21.2658 +11 09 15.872 0.119 0.017 -2.34 0.38 -6.00 0.54 55 7 SgF 2 G045.49+00.12 19 14 11.3553 +11 13 6.370 0.144 0.024 -2.62 0.17 -5.61 0.16 58 3 SgF 55 G045.80-00.35 19 16 31.0795 +11 16 11.985 0.137 0.023 -2.52 0.17 -6.08 0.27 64 5 SgF 55 G048.60+00.02 19 20 31.1760 +13 55 25.210 0.093 0.005 -2.89 0.13 -5.50 0.13 18 5 Per 15 G048.99-00.29 19 22 26.1348 +14 06 39.133 0.178 0.017 -2.20 0.48 -5.84 0.63 67 10 SgF 69 G049.04-01.07 19 25 22.2504 +13 47 19.525 0.164 0.022 -3.23 0.23 -6.42 0.43 38 5 SgN 55 G049.19-00.33 19 22 57.7705 +14 16 9.983 0.197 0.008 -3.08 0.40 -5.50 0.40 67 5 SgF 2,69 G049.26+00.31 19 20 44.8571 +14 38 26.864 0.113 0.016 -2.73 0.15 -5.85 0.19 0 5 Per 51 G049.34+00.41 19 20 32.4472 +14 45 45.390 0.241 0.031 -2.36 0.26 -5.59 0.33 68 5 SgF 55 G049.41+00.32 19 20 59.2098 +14 46 49.613 0.132 0.031 -3.15 0.17 -4.49 0.66 -12 5 Per 51 G049.48-00.36 W51IRS2 19 23 39.8240 +14 31 4.950 0.195 0.071 -2.49 0.14 -5.51 0.16 56 3 SgN 16 G049.48-00.38 W51M 19 23 43.8700 +14 30 29.500 0.185 0.010 -2.64 0.20 -5.11 0.20 58 4 SgN 17 G049.59-00.24 19 23 26.6068 +14 40 16.955 0.218 0.009 -2.25 0.24 -6.12 0.25 63 5 SgF 55 G052.10+01.04 19 23 37.3212 +17 29 10.437 0.165 0.013 -2.77 1.40 -5.85 1.40 42 40 SgF 18,55 G054.10-00.08 19 31 48.7978 +18 42 57.096 0.231 0.031 -3.13 0.58 -5.57 0.61 40 5 LoS 70 G058.77+00.64 19 38 49.1269 +23 08 40.205 0.299 0.040 -2.70 0.34 -6.10 0.38 33 3 LoS 70 G059.47-00.18 19 43 28.3504 +23 20 42.522 0.535 0.024 -1.83 1.22 -6.60 1.21 26 3 LoS 70 G059.78+00.06 19 43 11.2464 +23 44 3.270 0.463 0.020 -1.50 0.53 -5.12 0.51 23 5 LoS 16,56 G059.83+00.67 19 40 59.2938 +24 04 44.177 0.242 0.014 -2.91 0.26 -6.12 0.26 34 3 LoS 70 G060.57-00.18 19 45 52.4949 +24 17 43.237 0.121 0.015 -3.26 0.15 -5.66 0.15 4 5 Per 51 G069.54-00.97 ON1 20 10 9.0700 +31 31 35.950 0.406 0.013 -3.19 0.40 -5.22 0.40 12 5 Loc 19,20,21 G070.18+01.74 20 00 54.4874 +33 31 28.224 0.156 0.016 -2.82 0.16 -5.17 0.19 -23 5 Per 58 G071.31+00.82 IRAS20056+335 20 07 31.2593 +33 59 41.491 0.213 0.028 -2.62 0.70 -5.65 0.60 9 5 Loc 49 G071.52-00.38 20 12 57.8943 +33 30 27.083 0.277 0.026 -2.48 0.29 -4.97 0.30 11 3 Loc 70 G073.65+00.19 20 16 21.9320 +35 36 6.094 0.075 0.020 -2.31 0.17 -4.20 0.23 -76 10 Out 1 G074.03-01.71 IRAS20231+344 20 25 7.1053 +34 49 57.593 0.629 0.017 -3.79 1.30 -4.88 1.50 5 5 Loc 21 G074.56+00.84 IRAS20143+363 20 16 13.3617 +36 43 33.920 0.367 0.083 -3.00 0.81 -4.37 0.98 -1 5 Loc 74 G075.29+01.32 20 16 16.0120 +37 35 45.810 0.108 0.010 -2.37 0.11 -4.48 0.17 -58 5 Out 22 G075.76+00.33 20 21 41.0860 +37 25 29.280 0.285 0.022 -3.08 0.60 -4.56 0.60 -9 9 Loc 21 G075.78+00.34 ON2N 20 21 44.0120 +37 26 37.480 0.261 0.030 -2.79 0.55 -4.66 0.55 1 5 Loc 23 G076.38-00.61 20 27 25.4752 +37 22 48.460 0.770 0.053 -3.73 3.00 -3.84 3.00 -2 5 Loc 21 G078.12+03.63 IRAS20126+410 20 14 26.0700 +41 13 32.690 0.645 0.030 -2.06 0.84 0.98 0.84 -6 5 Loc 24,71 G078.88+00.70 AFGL2591 20 29 24.8230 +40 11 19.590 0.300 0.024 -1.20 0.72 -4.80 0.66 -6 7 Loc 25 G079.73+00.99 IRAS20290+405 20 30 50.6730 +41 02 27.540 0.737 0.062 -2.84 0.79 -4.14 1.06 -3 5 Loc 25 G079.87+01.17 IRAS20286+410 20 30 29.1440 +41 15 53.640 0.620 0.027 -3.23 1.30 -5.19 1.30 -5 10 Loc 21 G080.79-01.92 NMLCyg 20 46 25.5400 +40 06 59.400 0.620 0.047 -1.55 0.57 -4.59 0.57 -3 3 Loc 26 G080.86+00.38 DR20 20 37 0.9600 +41 34 55.700 0.687 0.038 -3.29 0.73 -4.83 0.77 -3 5 Loc 25 G081.75+00.59 DR21A 20 39 1.9930 +42 24 59.290 0.666 0.035 -2.84 0.45 -3.80 0.47 -3 3 Loc 25 G081.87+00.78 W75N 20 38 36.4260 +42 37 34.800 0.772 0.042 -1.97 0.50 -4.16 0.51 7 3 Loc 25 G090.21+02.32 IRAS21007+495 21 02 22.7010 +50 03 8.309 1.483 0.038 -0.67 1.56 -0.90 1.67 -3 5 Loc 21 G090.92+01.48 21 09 12.9685 +50 01 3.664 0.171 0.031 -2.96 0.20 -2.61 0.28 -70 5 Out 1 G092.67+03.07 21 09 21.7320 +52 22 37.080 0.613 0.020 -0.69 1.42 -2.25 1.42 -5 10 Loc 21 G094.60-01.79 AFGL2789 21 39 58.2701 +50 14 20.994 0.221 0.013 -3.49 0.23 -2.65 0.23 -43 3 Per 18,28,58 G095.29-00.93 21 39 40.5089 +51 20 32.808 0.206 0.015 -2.74 0.30 -2.85 0.37 -38 5 Per 27 G097.53+03.18 21 32 12.4343 +55 53 49.689 0.133 0.017 -2.94 0.29 -2.48 0.29 -73 5 Out 27 G098.03+01.44 21 43 1.4400 +54 56 17.800 0.366 0.161 -3.28 1.00 -0.63 1.00 -61 5 Per 58 G100.37-03.57 22 16 10.3651 +52 21 34.113 0.289 0.016 -3.66 0.60 -3.02 0.60 -37 10 Per 28 G105.41+09.87 21 43 6.4810 +66 06 55.340 1.129 0.063 -0.21 1.20 -5.49 1.20 -10 5 Loc 21 G107.29+05.63 IRAS22198+633 22 21 26.7280 +63 51 37.920 1.288 0.107 -2.47 1.40 0.26 1.40 -11 5 Loc 29 G108.18+05.51 22 28 51.4117 +64 13 41.201 1.092 0.018 0.26 1.15 -2.26 1.20 -11 3 Loc 19 G108.20+00.58 22 49 31.4775 +59 55 42.006 0.227 0.037 -2.25 0.50 -1.00 0.50 -49 10 Per 28 G108.42+00.89 IRAS22480+600 22 49 58.8760 +60 17 56.650 0.400 0.050 -2.58 0.60 -1.91 0.50 -51 5 Per 75 G108.47-02.81 23 02 32.0800 +56 57 51.400 0.309 0.010 -3.13 0.49 -2.79 0.46 -54 5 Per 28 G108.59+00.49 22 52 38.3150 +60 00 51.888 0.405 0.033 -5.56 0.40 -3.40 0.40 -52 5 Per 28 G109.87+02.11 22 56 18.0559 +62 01 49.562 1.228 0.024 -1.03 1.30 -2.62 1.33 -7 5 Loc 30,70 G110.19+02.47 IRAS22555+621 22 57 29.8060 +62 29 46.837 0.314 0.070 -2.14 0.68 -0.32 0.77 -63 5 Per 76 G111.23-01.23 23 17 20.7888 +59 28 46.970 0.300 0.081 -4.37 0.60 -2.38 0.60 -53 10 Per 28 G111.25-00.76 23 16 10.3420 +59 55 28.596 0.280 0.015 -2.69 0.28 -1.75 0.33 -40 3 Per 28 G111.54+00.77 NGC7538 23 13 45.3600 +61 28 10.550 0.378 0.017 -2.45 0.40 -2.44 0.40 -57 5 Per 30 G115.05-00.04 PZCas 23 44 3.2816 +61 47 22.187 0.356 0.040 -3.70 0.78 -2.00 0.81 -36 5 Per 77 G121.29+00.65 L1287 00 36 47.3530 +63 29 2.160 1.077 0.039 -0.86 1.19 -2.29 1.23 -23 5 Loc 19 G122.01-07.08 IRAS00420+553 00 44 58.3970 +55 46 47.600 0.460 0.020 -3.70 0.50 -1.25 0.50 -50 5 Per 31 G123.06-06.30 NGC281 00 52 24.7008 +56 33 50.527 0.355 0.030 -2.79 0.62 -2.14 0.70 -30 5 Per 32 G123.06-06.30 NGC281W 00 52 24.1960 +56 33 43.180 0.421 0.022 -2.69 0.31 -1.77 0.29 -29 3 Per 19 G133.94+01.06 W3OH 02 27 3.8190 +61 52 25.230 0.512 0.010 -1.20 0.32 -0.15 0.32 -47 3 Per 33,34 G134.62-02.19 SPer 02 22 51.7106 +58 35 11.444 0.413 0.017 -0.49 0.50 -1.19 0.48 -39 5 Per 35 G135.27+02.79 02 43 28.5680 +62 57 8.388 0.167 0.011 -1.22 0.30 0.46 0.36 -72 3 Out 36 G136.84+01.16 02 49 33.6070 +60 48 27.680 0.470 0.115 0.42 0.50 -0.43 0.50 -42 5 Per 58 G160.14+03.15 05 01 40.2437 +47 07 19.026 0.244 0.006 0.87 0.35 -1.32 0.29 -18 5 Out 27 G168.06+00.82 IRAS05137+391 05 17 13.7436 +39 22 19.915 0.187 0.022 0.44 0.29 -0.78 0.35 -25 5 Out 38,27 G170.65-00.24 IRAS05168+363 05 20 22.0700 +36 37 56.630 0.532 0.075 0.23 1.20 -3.14 0.60 -19 5 Per 78 G173.48+02.44 05 39 13.0658 +35 45 51.281 0.594 0.014 0.62 0.63 -2.34 0.63 -13 5 Per 58 G174.20-00.07 AFGL5142 05 30 48.0173 +33 47 54.568 0.467 0.020 0.32 0.56 -0.22 0.68 -2 10 Per 50 G176.51+00.20 05 37 52.1353 +32 00 3.928 1.038 0.021 1.84 1.00 -5.86 1.00 -17 5 Loc 21 G182.67-03.26 05 39 28.4248 +24 56 31.946 0.157 0.042 0.44 0.35 -0.45 0.36 -7 10 Out 27 G183.72-03.66 05 40 24.2276 +23 50 54.728 0.629 0.012 0.38 1.30 -1.32 1.30 3 5 Per 28 G188.79+01.03 IRAS06061-215 06 09 6.9750 +21 50 41.400 0.496 0.103 -0.10 0.50 -3.91 0.50 -5 5 Per 39 G188.94+00.88 S252 06 08 53.3441 +21 38 29.099 0.476 0.006 -0.32 0.49 -1.94 0.49 8 5 Per 18,40 G192.16-03.81 05 58 13.5300 +16 31 58.900 0.660 0.040 0.70 0.78 -1.80 0.86 5 5 Per 41 G192.60-00.04 S255 06 12 54.0100 +17 59 23.200 0.601 0.039 -0.18 0.60 -0.43 0.60 7 5 Per 19,50 G196.45-01.67 S269 06 14 37.6410 +13 49 36.693 0.242 0.011 0.20 0.27 -0.73 0.27 19 5 Out 42,66,65 G209.00-19.38 Orion 05 35 15.8000 -05 23 14.100 2.421 0.019 3.13 3.06 -1.10 3.71 3 5 Loc 43,44,45,57 G211.59+01.05 06 52 45.3210 +01 40 23.072 0.239 0.010 -0.79 0.62 0.05 0.66 45 5 Out 58 G213.70-12.59 06 07 47.8584 -06 22 56.586 1.148 0.030 -1.30 1.20 2.20 1.20 11 3 Loc 1,72 G217.79+01.05 V838Mon 07 04 4.8217 -03 50 50.636 0.163 0.016 -0.54 0.23 0.08 0.17 49 5 Out 48 G229.57+00.15 07 23 1.7718 -14 41 34.339 0.218 0.012 -1.33 0.70 0.77 0.70 53 10 Per 28 G232.62+00.99 07 32 9.7800 -16 58 12.800 0.596 0.035 -2.17 0.38 2.09 0.60 21 3 Loc 40 G236.81+01.98 07 44 28.2367 -20 08 30.606 0.326 0.026 -2.49 0.43 2.67 0.41 53 10 Per 28 G239.35-05.06 VYCMa 07 22 58.3260 -25 46 3.060 0.855 0.057 -2.80 0.58 2.60 0.58 20 3 Loc 46,47 G240.31+00.07 07 44 51.9676 -24 07 41.372 0.187 0.014 -1.55 0.50 2.57 0.30 68 5 Per 28,73