+-----------------------+-------------------------+-------------------------+----------------+---------------+----------------+------------------+------------+ | Name | Right Ascension | Declination | Gal. Longitude | Gal. Latitude | Velocity in RA | Velocity in Dec. | References | | | (J2000) | (J2000) | (deg) | (deg) | (mas/yr) | (mas/yr) | | +-----------------------+-------------------------+-------------------------+----------------+---------------+----------------+------------------+------------+ | CXOU J010043.1-721134 | 01 00 43.14 0.13 | -72 11 33.8 0.6 | 301.93 | -44.92 | | | 1 | | 4U 0142+61 | 01 46 22.407 0.028 | +61 45 03.19 0.20 | 129.38 | -0.43 | -5.6 1.3 | 2.9 1.3 | 2, 3 | | SGR 0418+5729 | 04 18 33.867 0.043 | +57 32 22.91 0.35 | 147.98 | +5.12 | | | 4 | | SGR 0501+4516 | 05 01 06.76 0.01 | +45 16 33.92 0.11 | 161.55 | +1.95 | | | 5 | | SGR 0526-66 | 05 26 00.89 0.10 | -66 04 36.3 0.6 | 276.09 | -33.25 | | | 6 | | 1E 1048.1-5937 | 10 50 07.14 0.08 | -59 53 21.4 0.6 | 288.26 | -0.52 | | | 7 | | 1E 1547.0-5408 | 15 50 54.12386 0.00064 | -54 18 24.1141 0.0020 | 327.24 | -0.13 | 4.8 0.5 | -7.9 0.3 | 8 | | PSR J1622-4950 | 16 22 44.89 0.08 | -49 50 52.7 0.8 | 333.85 | -0.10 | | | 9 | | SGR 1627-41 | 16 35 51.844 0.020 | -47 35 23.31 0.20 | 336.98 | -0.11 | | | 10 | | CXOU J164710.2-455216 | 16 47 10.20 0.03 | -45 52 16.90 0.30 | 339.55 | -0.43 | | | 11 | | 1RXS J170849.0-400910 | 17 08 46.87 0.06 | -40 08 52.44 0.70 | 346.48 | +0.04 | | | 12 | | CXOU J171405.7-381031 | 17 14 05.74 0.05 | -38 10 30.9 0.6 | 348.68 | +0.37 | | | 13 | | SGR J1745-2900 | 17 45 40.164 0.002 | -29 00 29.818 0.090 | 359.94 | -0.05 | | | 14 | | SGR 1806-20 | 18 08 39.337 0.004 | -20 24 39.85 0.06 | 10.00 | -0.24 | -4.5 1.4 | -6.9 2.0 | 15, 16 | | XTE J1810-197 | 18 09 51.08696 0.00028 | -19 43 51.9315 0.0040 | 10.73 | -0.16 | -6.60 0.06 | -11.72 1.03 | 17 | | Swift J1818.0-1607 | 18 18 03.7 11.2 | -16 07 31.8 162.0 | 14.83 | -0.15 | | | 18 | | Swift J1822.3-1606 | 18 22 18.00 0.12 | -16 04 26.8 1.8 | 15.35 | -1.02 | | | 19 | | SGR 1833-0832 | 18 33 44.37 0.03 | -08 31 07.5 0.4 | 23.34 | +0.02 | | | 20 | | Swift J1834.9-0846 | 18 34 52.118 0.040 | -08 45 56.02 0.60 | 23.25 | -0.34 | | | 21 | | 1E 1841-045 | 18 41 19.343 0.020 | -04 56 11.16 0.30 | 27.39 | -0.01 | < 4 | < 4 | 10, 22 | | 3XMM J185246.6+003317 | 18 52 46.67 0.02 | +00 33 17.8 0.3 | 33.58 | -0.05 | | | 23 | | SGR 1900+14 | 19 07 14.33 0.01 | +09 19 20.1 0.2 | 43.02 | +0.77 | -2.1 0.4 | -0.6 0.5 | 16, 24 | | SGR 1935+2154 | 19 34 55.5978 0.0503 | +21 53 47.7864 0.7000 | 57.25 | +0.82 | | | 25 | | 1E 2259+586 | 23 01 08.295 0.077 | +58 52 44.45 0.60 | 109.09 | -1.00 | -9.9 1.1 | -3.0 1.1 | 3, 26 | | | | | | | | | | | SGR 0755-2933 # | 07 55 42.48 0.15 | -29 33 49.2 2.0 | 246.22 | -0.61 | | | 27 | | SGR 1801-23 # | 18 00 59 | -22 56 48 | 6.91 | +0.07 | | | 28 | | SGR 1808-20 # | 18 08 11.2 29.5 | -20 38 49 414 | 9.74 | -0.26 | | | 29 | | AX J1818.8-1559 # | 18 18 51.38 0.04 | -15 59 22.62 0.60 | 15.04 | -0.25 | | | 30 | | AX J1845.0-0258 # | 18 44 54.68 0.04 | -02 56 53.1 0.6 | 29.56 | +0.11 | | | 31 | | SGR 2013+34 # | 20 13 56.9 7.3 | +34 19 48 90 | 72.32 | -0.10 | | | 32 | | | | | | | | | | | PSR J1846-0258 ## | 18 46 24.94 0.01 | -02 58 30.1 0.2 | 29.71 | -0.24 | | | 33 | +-----------------------+-------------------------+-------------------------+----------------+---------------+----------------+------------------+------------+ Notes: # This candidate is unconfirmed. ## This source is often classified as a young, rotation-powered pulsar, but it was seen to undergo a magnetar-like outburst in 2006 (see Gavriil et al. 2008, Science, 319, 1802). References: 1 Lamb et al. 2002, ApJL, 574, L29 2 Hulleman et al. 2004, A&A, 416, 1037 3 Tendulkar et al. 2013, ApJ, 772, 31 4 van der Horst et al. 2010, ApJL, 711, L1 5 Gogus et al. 2010, ApJ, 722, 899 6 Kulkarni et al. 2003, ApJ, 585, 948 7 Wang & Chakrabarty 2002, ApJL, 579, L33 8 Deller et al. 2012, ApJL, 748, L1 9 Anderson et al. 2012, ApJ, 751, 53 10 Wachter et al. 2004, ApJ, 615, 887 11 Muno et al. 2006, ApJL, 636, L41 12 Israel et al. 2003, ApJL, 589, L93 13 Halpern & Gotthelf 2010, ApJ, 725, 1384 14 Shannon & Johnston 2013, MNRAS, 435, L29 15 Israel et al. 2005, A&A, 438, L1 16 Tendulkar et al. 2012, ApJ, 761, 76 17 Helfand et al. 2007, ApJ, 662, 1198 18 Stamatikos et al. 2020, GCN, 27384, 1 19 Pagani et al. 2011, ATel, 3493, 1 20 Gogus et al. 2010, ApJ, 718, 331 21 Kargaltsev et al. 2012, ApJ, 748, 26 22 Tendulkar 2013, in Neutron Stars and Pulsars: Challenges and Opportunities after 80 Years, IAU Symp. 291, 514 23 Zhou et al. 2014, ApJL, 781, L16 24 Frail et al. 1999, Nature, 398, 127 25 Israel et al. 2016, MNRAS, 457, 3448 26 Hulleman et al. 2001, ApJL, 563, L49 27 Barthelmy et al. 2016, ATel, 8831, 1 28 Cline et al. 2000, ApJ, 531, 407 29 Lamb et al. 2003, GCN, 2351, 1 30 Mereghetti et al. 2012, A&A, 546, 30 31 Tam et al. 2006, ApJ, 652, 548 32 Sakamoto et al. 2011, AdSpR, 47, 1346 33 Helfand et al. 2003, ApJ, 582, 783