2013MNRAS.428.3693V

Query : 2013MNRAS.428.3693V

2013MNRAS.428.3693V - Mon. Not. R. Astron. Soc., 428, 3693-3714 (2013/February-1)

Model independent means of categorizing X-ray binaries - I. Colour-colour-intensity diagrams.

VRTILEK S.D. and BOROSON B.S.

Abstract (from CDS):

The diverse behaviours displayed by X-ray binaries make it difficult to determine the nature of the underlying compact objects. In particular, identification of systems containing black holes is currently considered robust only if a dynamical mass is obtained. We explore a model-independent means of identifying the central bodies - neutron stars or black holes - of accreting binary systems. We find that four categories of object (classic black holes, GRS 1915-like black holes, pulsars and non-pulsing neutron stars) occupy distinct regions in a 3D colour-colour-intensity (CCI) diagram. Assuming that this clustering effect is due to intrinsic properties of the sources (such as mass-accretion rate, binary separation, mass ratio, magnetic field strength, etc.), we suggest possible physical effects that drive each object to its specific location in the CCI phase space. We also suggest a surface in this space which separates systems that produce jets from those which do not, and demonstrate the use of CCI for identifying X-ray pulsars where a period has not been established. This method can also be used to study subclustering within a category and may prove useful for other classes of objects, such as cataclysmic variables and active galactic nuclei.

Abstract Copyright: © 2012 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society (2012)

Journal keyword(s): pulsars: general - X-rays: binaries

Simbad objects: 49

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Number of rows : 49
N Identifier Otype ICRS (J2000)
RA 		ICRS (J2000)
DEC 		Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2024 		#notes
1 M 31 AGN 00 42 44.330 +41 16 07.50 4.86 4.36 3.44     ~ 12643 1
2 SK 160 HXB 01 17 05.1457288392 -73 26 36.014808156 12.23 13.00 13.15   13.17 O9.7Ia+ 858 0
3 V* X Per HXB 03 55 23.0777456088 +31 02 45.039836148 6.090 6.840 6.720     O9.5III 976 0
4 M 1 SNR 05 34 30.9 +22 00 53           ~ 6191 1
5 X LMC X-3 HXB 05 38 56.6323605504 -64 05 03.317937504   17 17.2     B2.5Ve 675 0
6 X LMC X-1 HXB 05 39 38.8284304464 -69 44 35.531553624   14.8 14.5     O8(f)p 640 2
7 V* V1055 Ori LXB 06 17 07.3565603963 +09 08 13.515857360   18.80 18.5     ~ 560 1
8 V* GP Vel HXB 09 02 06.8608812864 -40 33 16.899168060 6.85 7.37 6.87 6.31 6.05 B0.5Ia 1503 0
9 V* KV UMa HXB 11 18 10.7930420496 +48 02 12.314730120     12.25     K5V-M1V 822 0
10 V* V779 Cen HXB 11 21 15.0920532528 -60 37 25.630264596   14.4 12.27     O9III/Veq 1096 0
11 V* BP Cru HXB 12 26 37.5605188992 -62 46 13.261044684   12.482 10.803 10.304   B1Ia+ 687 0
12 V* GR Mus LXB 12 57 37.1833002949 -69 17 18.996899563   19.40 19.1     ~ 260 0
13 V* BR Cir HXB 15 20 40.8532547060 -57 10 00.206639033   21.4 21.4     ~ 781 1
14 V* QV Nor HXB 15 42 23.3633146128 -52 23 09.577395960   16.3 14.5     B0.2Ia:e 420 1
15 V* V381 Nor HXB 15 50 58.6637920704 -56 28 35.258385000   17.95 16.6     K3III 1172 0
16 V* LU TrA LXB 16 01 02.3 -60 44 18 18.35 19.05 18.6     ~ 86 0
17 V* QX Nor LXB 16 12 43.0 -52 25 23           ~ 905 1
18 V* V818 Sco LXB 16 19 55.0692669024 -15 38 25.017666540 11.60 12.40 11.1     Oev 1643 0
19 X Nor X-1 LXB 16 34 01.610 -47 23 34.80           ~ 516 0
20 V* V801 Ara LXB 16 40 55.5976953528 -53 45 04.948107156 17.50 18.20 17.5   17.07 ~ 869 1
21 [GHJ2008] 3 HXB 16 50 00.980 -49 57 43.60     11.89     K4V 397 0
22 V* V1033 Sco HXB 16 54 00.137 -39 50 44.90   15.20 14.2 16.14   F5IV 1886 1
23 V* HZ Her LXB 16 57 49.8110126616 +35 20 32.486555472 11.90 14.89 13.63 13.88   B3/6ep 2076 0
24 V* V821 Ara HXB 17 02 49.3876391280 -48 47 23.087954544 16.20 16.30 15.5     ~ 2078 0
25 HD 153919 HXB 17 03 56.7725629224 -37 50 38.913331452 6.06 6.78 6.51 6.08 5.90 O6Iafcp 813 1
26 V* V1101 Sco LXB 17 05 44.4916006152 -36 25 23.049324480   20.10 18.6     ~ 439 0
27 4U 1705-44 LXB 17 08 54.470 -44 06 07.35           ~ 389 0
28 V* V2216 Oph LXB 17 31 44.17 -16 57 40.9 16.40 17.10 16.8     ~ 293 1
29 V* V926 Sco LXB 17 38 58.2384053021 -44 27 00.699118812 16.90 17.70 17.5     ~ 456 0
30 V* V2606 Oph CV* 17 42 40.030 -27 44 52.70     23.2     ~ 150 0
31 NAME XTE J17464-3213 LXB 17 46 15.59637 -32 14 00.8600           ~ 744 0
32 X Sgr X-1 LXB 17 47 56.0 -26 33 49           ~ 375 0
33 4U 1758-25 LXB 18 01 09.7308060816 -25 04 44.120221284     11.08     ~ 655 1
34 2XMM J180112.4-254436 LXB 18 01 12.40 -25 44 36.1           ~ 391 1
35 X Sgr X-3 LXB 18 01 32.3 -20 31 44           ~ 235 1
36 V* V5512 Sgr LXB 18 14 31.55 -17 09 26.7     12.73     K5III 392 0
37 V* NP Ser LXB 18 16 01.389 -14 02 10.62   18.8       K 642 2
38 V* MM Ser LXB 18 39 57.56 +05 02 09.6   19.2 19.2     ~ 349 0
39 V* V406 Vul HXB 18 58 41.580 +22 39 29.40 15.00 15.65 15.31     G5V-K0V 379 0
40 4U 1901+03 HXB 19 03 39.3926409480 +03 12 15.758070228           OB 106 0
41 X Aql X-1 LXB 19 11 16.0571313336 +00 35 05.868232692           ~ 1136 1
42 Granat 1915+105 HXB 19 15 11.55576 +10 56 44.9052           ~ 2627 0
43 V* V1405 Aql LXB 19 18 47.871 -05 14 17.09 20.90 21.40 21.0     ~ 474 0
44 KS 1947+300 HXB 19 49 35.4841147968 +30 12 31.775979852   15.16 14.22 13.53 12.88 B0Ve 173 0
45 HD 226868 HXB 19 58 21.6757355952 +35 12 05.784512688 9.38 9.72 8.91 8.42   O9.7Iabpvar 4334 0
46 V* V1408 Aql LXB 19 59 24.0074252040 +11 42 29.859773292 18.40 18.97 18.95 18.70 18.66 ~ 199 0
47 V* V2246 Cyg HXB 20 32 15.2749858128 +37 38 14.843024844   22.16 19.41 17.32 15.18 B0Ve 437 0
48 V* V1521 Cyg HXB 20 32 25.78 +40 57 27.9           WN4/5-6/7 1938 2
49 V* V1341 Cyg LXB 21 44 41.1544345272 +38 19 17.066570988 15.00 15.13 14.68 15.00   A9III 1155 1

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