2010A&A...520A..76A

Query : 2010A&A...520A..76A

2010A&A...520A..76A - Astronomy and Astrophysics, volume 520, A76-76 (2010/9-2)

Constraining compactness and magnetic field geometry of X-ray pulsars from the statistics of their pulse profiles.

ANNALA M. and POUTANEN J.

Abstract (from CDS):

The light curves observed from X-ray pulsars and magnetars reflect the radiation emission pattern, the geometry of the magnetic field, and the neutron star compactness. We study the statistics of X-ray pulse profiles in order to constrain the neutron star compactness and the magnetic field geometry. We collect the data for 124 X-ray pulsars, which are mainly in high-mass X-ray binary systems, and classify their pulse profiles according to the number of observed peaks seen during one spin period, dividing them into two classes, single- and double-peaked. We find that the pulsars are distributed about equally between both groups. We also compute the probabilities predicted by the theoretical models of two antipodal point-like spots that emit radiation according to the pencil-like emission patterns. These are then compared to the observed fraction of pulsars in the two classes. Assuming a blackbody emission pattern, it is possible to constrain the neutron star compactness if the magnetic dipole has arbitrary inclinations to the pulsar rotational axis. More realistic pencil-beam patterns predict that 79% of the pulsars are double-peaked independently of their compactness. The theoretical predictions can be made consistent with the data if the magnetic dipole inclination to the rotational axis has an upper limit of 40°±4°. We also discuss the effect of limited sensitivity of the X-ray instruments to detect weak pulses, which lowers the number of detected double-peaked profiles and makes the theoretical predictions to be consistent with the data even if the magnetic dipole does have random inclinations. This shows that the statistics of pulse profiles does not allow us to constrain the neutron star compactness. In contrast to the previous claims by Bulik et al. (2003A&A...404.1023B), the data also do not require the magnetic inclination to be confined in a narrow interval.

Abstract Copyright:

Journal keyword(s): methods: statistical - pulsars: general - stars: neutron - X-rays: binaries

Simbad objects: 126

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Number of rows : 126
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     ~ 12645 1
2 [MA93] 172 HXB 00 47 23.3388222768 -73 12 27.370134648   15.85 15.85   15.872 B1-B1.5V 52 0
3 RX J0049.0-7250 HXB 00 49 03.35 -72 50 52.4   17.01 16.898   16.686 B3:V 51 0
4 RX J0049.2-7311 HXB 00 49 13.6255324536 -73 11 37.869710892   16.52 16.555   16.320 B1e 46 1
5 LIN 139 HXB 00 49 42.0078068952 -73 23 14.676382752 14.09 15.00 14.98   14.70 O9.5-B0.5III-V 73 0
6 V* DZ Tuc HXB 00 50 44.7079466208 -73 16 05.430164196 14.46 15.37 15.396   15.225 B0-B0.5V 76 0
7 [MA93] 413 HXB 00 50 56.9992401408 -72 13 34.582439136   14.97 15.05     B0.5III-V 59 0
8 SXP 4.78 HXB 00 51 38.7742234656 -72 17 04.796861748 14.63 15.66 15.63   15.44 B0V-B1Ve 49 0
9 LIN 193 HXB 00 51 52.0250520000 -73 10 34.140066780 13.39 14.38 14.459 14.24 14.28 O9.5-B0V 72 0
10 AzV 102 HXB 00 51 53.1358981896 -72 31 48.721904580 13.66 14.79 14.38   14.40 B0-5(II) 71 0
11 LIN 198 HXB 00 52 05.6251611744 -72 26 04.228773036 13.86 14.91 14.927 14.91 14.794 B0-5(II)e 165 0
12 SXP 82.4 HXB 00 52 08.9591015832 -72 38 03.307691544 14.33 15.15 15.23   14.83 B1-5(II)e 37 0
13 LIN 203 HXB 00 52 13.9956976512 -73 19 18.812945496   14.66 14.67   14.534 O9.5IIIe/B0Ve 87 0
14 NAME SMC G 00 52 38.0 -72 48 01   2.79 2.2     ~ 11146 1
15 LIN 221 HXB 00 52 55.2656173752 -71 58 06.287817144 14.37 15.47 15.53   15.34 B0-B1III-V 48 0
16 RX J0053.4-7227 HXB 00 53 23.8589408040 -72 27 15.445929456 15.06 16.11 16.202   16.125 B1-B2IV-V 31 0
17 SXP 95.2 HXB 00 53 26.4 -72 49 16           ~ 19 1
18 RX J0053.9-7226 HXB 00 53 55.181 -72 26 44.88   14.65 14.72   14.757 B1III 93 0
19 X SMC X-2 HXB 00 54 33.43 -73 41 01.3 13.77 16.40 16.38   14.67 O9.5III-V 131 0
20 LIN 268 HXB 00 54 55.8845128080 -72 45 10.958407380 13.83 14.73 15.003 14.73 14.784 B1e 49 0
21 [MA93] 810 HXB 00 54 56.1754603176 -72 26 47.859057060 14.17 15.24 15.28   15.327 O9V 72 0
22 RX J0055.2-7238 HXB 00 55 18.4407888192 -72 38 52.029653424   16.02 16.022   15.711 O9.5V 36 0
23 RX J0055.4-7210 HXB 00 55 27.746 -72 10 58.74           ~ 32 2
24 Gaia DR3 4689059652423009024 * 00 55 28.4615006136 -72 10 56.693035920   16.66 16.78     B2-B3IV-V 10 0
25 [MA93] 904 HXB 00 56 05.5347974352 -72 21 59.452153740   15.84 15.88   15.494 B1V 33 0
26 RX J0057.4-7325 HXB 00 57 27.000 -73 25 19.55 14.56 15.62 15.67 15.43 15.67 B3-B5Ib-II? 34 0
27 [MA93] 1020 HXB 00 57 36.0162576624 -72 19 34.056483744 14.89 15.95 16.008 15.79 15.806 B0/4e 42 0
28 [MA93] 1036 HXB 00 57 49.5745148088 -72 02 35.873596896   15.52 15.64     B0-B2III-V 54 0
29 [MA93] 1038 HXB 00 57 50.3868809664 -72 07 56.130650112 14.63 15.64 15.69   15.420 B1-2(Be-Fe) 42 0
30 RX J0059.2-7138 HXB 00 59 12.7444006824 -71 38 44.962383408   14.07 14.01 14.36   B1-B1.5II-III 84 0
31 SXP 202 HXB 00 59 21.0398312736 -72 23 17.305459368 13.81 14.96 14.97   15.07 B0-B1V 42 0
32 PSR J0100-7211 Psr 01 00 42.86 -72 11 33.3   17.69 17.82     B3V 95 0
33 [MA93] 1240 HXB 01 01 02.8880678424 -72 06 58.964665824   15.68 15.757 15.52 15.576 B0-B2III-V 48 0
34 [MA93] 1257 HXB 01 01 20.6635900032 -72 11 18.965108724 14.41 15.36 15.49   15.53 B0.5-B2IV-V 47 0
35 SXP 6.85 HXB 01 02 53.3180253744 -72 44 35.166214716   14.51 14.59     O9.5-B0IV-V 59 0
36 [MA93] 1367 HXB 01 03 13.9173060552 -72 09 14.258500452   14.70 14.79 15.0   B0.5IV-V 92 2
37 [MA93] 1393 HXB 01 03 37.5349856136 -72 01 33.204096336   14.54 14.65     B0III-V 73 0
38 RX J0111.2-7317 HXB 01 11 08.5770101712 -73 16 46.308129384 14.40 15.42 15.52   15.29 B0.5-1Ve 71 0
39 SK 160 HXB 01 17 05.1457288392 -73 26 36.014808156 12.23 13.00 13.15   13.17 O9.7Ia+ 858 0
40 [MA93] 1845 HXB 01 17 40.1630558064 -73 30 50.523690888 13.30 14.14 14.18   14.09 B1-3(II)e 55 0
41 V* V662 Cas HXB 01 18 02.6976641952 +65 17 29.829200388 12.27 11.99 11.14 10.33 9.58 B1Iae 272 0
42 V* V635 Cas HXB 01 18 31.9704955824 +63 44 33.072603144 17.05 16.64 15.19 14.34 13.22 B0.2Ve 744 0
43 PSR J0146+6145 Psr 01 46 22.21 +61 45 03.8   28.100 25.620     ~ 570 0
44 EM* GGA 104 HXB 01 47 00.2124077208 +61 21 23.663788056 11.76 12.09 11.366 11.00 10.52 B1IIIe 191 0
45 NAME Magellanic Clouds GrG 03 00 -71.0           ~ 7065 0
46 V* BQ Cam HXB 03 34 59.9116110096 +53 10 23.296879776   17.16 15.42 14.26 13.04 O8.5Ve 478 1
47 V* X Per HXB 03 55 23.0777456088 +31 02 45.039836148 6.090 6.840 6.720     O9.5III 978 0
48 LS V +44 17 HXB 04 40 59.3296237272 +44 31 49.258049376 11.02 11.42 10.73 10.28 9.76 B0.2Ve 139 0
49 RX J0502.9-6626 HXB 05 02 51.7474501824 -66 26 26.907946008   14.12 14.22 14.359   B0Ve 36 0
50 RX J0529.7-6556 HXB 05 29 47.8546718664 -65 56 43.592426736 13.761 14.477 14.594   14.741 B0.5Ve 31 0
51 RX J0530.1-6551 X 05 30 10.6000 -65 51 26.994           ~ 11 1
52 RX J0531.2-6609 HXB 05 31 13.3008 -66 07 05.006     14.4     B0.7Ve 55 1
53 X LMC X-4 HXB 05 32 49.5556042296 -66 22 13.202721768   13.9 14.0     O8III 668 0
54 RX J0535.6-6651 HXB 05 35 40.9970566152 -66 51 53.547559416   13.7 13.8     B0.5IIIe 287 0
55 HD 245770 HXB 05 38 54.5748918624 +26 18 56.836952784 9.30 9.84 9.39 8.77 8.30 O9/B0III/Ve 983 0
56 RX J0544.1-7100 HXB 05 44 05.2035514728 -71 00 50.782002660 14.598 15.292 15.235   15.220 B0Ve 23 0
57 EM* GGA 401 HXB 06 35 18.2797640568 +05 33 06.274961892   13.769 12.837 12.512   B1-2III-Ve 54 0
58 HD 49798 HXB 06 48 04.7001531360 -44 18 58.436036028 6.758 8.017 8.287 8.391 8.543 sdO6 329 0
59 2E 1752 HXB 06 58 17.2878153600 -07 12 35.204283324   12.38 10.9 11.40   O9.7Ve 98 0
60 RX J0720.4-3125 N* 07 20 24.961 -31 25 50.21   26.1   27.0   ~ 303 0
61 V* V441 Pup HXB 07 28 53.5788273168 -26 06 28.897118208 11.27 12.29 11.83 11.53   O5Ve 81 0
62 V* V572 Pup HXB 08 12 28.3575205680 -31 14 52.138451400 12.14 13.03 12.74 12.44   B0.2IVe 70 0
63 Ginga 0834-430 HXB 08 35 54.9956514920 -43 11 17.497095048     20.4     B0-2III-Ve 104 0
64 V* GP Vel HXB 09 02 06.8608812864 -40 33 16.899168060 6.85 7.37 6.87 6.31 6.05 B0.5Ia 1505 0
65 GRO J1008-571 HXB 10 09 46.9642314696 -58 17 35.603851848       14.63   B0e 238 0
66 LS 1698 HXB 10 37 35.3145142200 -56 47 55.869594756   12.00 11.48 11.38   B0III/V:e 109 0
67 2E 2336 HXB 10 50 08.93 -59 53 19.9           Be 405 0
68 WRAY 15-793 HXB 11 20 57.1736884968 -61 55 00.166078020 12.81 13.06 12.12     O9.5III/Ve 208 0
69 V* V779 Cen HXB 11 21 15.0920532528 -60 37 25.630264596   14.4 12.27     O9III/Veq 1097 0
70 HD 306414 HXB 11 21 46.8238550520 -59 51 47.970396396 10.12 10.69 10.23 10.00   B1Ia 152 0
71 IGR J11435-6109 HXB 11 44 00.2947782000 -61 07 36.483179736       15.70   B0.5Ve 59 1
72 1E 1145.1-6141 HXB 11 47 28.5598257552 -61 57 13.426997544   13.08       B2Iae 149 0
73 HD 102567 HXB 11 48 00.0214464120 -62 12 24.902384760 8.24 9.06 9.00 9.62   B1Vne 319 0
74 V* BP Cru HXB 12 26 37.5605188992 -62 46 13.261044684   12.482 10.803 10.304   B1Ia+ 688 0
75 V* V850 Cen HXB 13 01 17.0968941216 -61 36 06.637549788   15.6 14.40     B2Vne 333 0
76 IGR J13020-6359 HXB 13 01 58.7205396744 -63 58 08.828687136           B0.5Ve 60 0
77 SAX J1324.4-6200 HXB 13 24 26.70 -62 01 19.5           Be? 24 0
78 4U 1416-62 HXB 14 21 12.1560262026 -62 41 56.089360085   17.9 17.2     B1:V:e 156 0
79 SAX J1452.8-5949 HXB 14 52 52.70 -59 49 08.1           Be? 22 0
80 V* QV Nor HXB 15 42 23.3633146128 -52 23 09.577395960   16.3 14.5     B0.2Ia:e 421 1
81 [KRL2007b] 171 HXB 15 44 02 -56 42.7           Be? 56 0
82 2S 1553-542 HXB 15 57 49.00 -54 24 54.0           Be 114 0
83 SWIFT J1626.5-5156 HXB 16 26 36.5197704024 -51 56 30.600051936       16.03 14.59 B0V 86 0
84 IGR J16320-4751 HXB 16 32 01.76 -47 52 29.0           BN0.5Ia 175 0
85 [KRL2007b] 194 Psr 16 36 30 -47 37.5           Be 86 0
86 NAME AX J163904-4642 HXB 16 39 06 -46 42.2           BIV-V 98 1
87 IGR J16465-4507 HXB 16 46 35.2590465192 -45 07 04.609890912       14.033   O9.5Ia 98 0
88 PSR J1647-4552 Psr 16 47 10.18 -45 52 16.7           ~ 198 1
89 2XMMi J170004.2-415804 HXB 17 00 04.26 -41 58 04.7           Be? 24 0
90 NAME OAO 1657-41 HXB 17 00 48.884 -41 39 21.46           Ofpe/WN9 248 0
91 PSR J1708-4008 Psr 17 08 49.0 -40 09 10           ~ 293 0
92 2MASS J17251139-3616575 HXB 17 25 11.392 -36 16 57.53     14.30     B0-1Ia 126 2
93 AX J1740.1-2847 CV* 17 40 09.1329872016 -28 47 25.807690680           ~ 16 0
94 AX J1740.3-2904 CV* 17 40 16.1015875488 -29 03 37.997284212   19.1 19.1 18.8   ~ 29 0
95 2XMM J174906.8-273232 HXB 17 49 06.79 -27 32 32.4           B1-3 48 0
96 2XMM J174912.3-272537 HXB 17 49 12.28 -27 25 37.4           B3 34 0
97 GRO J1750-27 HXB 17 49 12.969 -26 38 38.93           Be? 72 1
98 SAX J1802.7-2017 HXB 18 02 41.9407199832 -20 17 17.312648064   17.4 16.4     BIII 89 0
99 PSR J1808-2024 Psr 18 08 39.32 -20 24 40.1           ~ 1240 2
100 AX J1809.8-1943 Psr 18 09 51.07 -19 43 51.8           ~ 463 0
101 4FGL J1821.1-1422 HXB 18 20 29.5 -14 34 24           O9.5-B0Ve 64 1
102 1FGL J1829.6-1006c Psr 18 29 44.01 -09 51 23.0           ~ 39 1
103 X Sct X-1 HXB 18 35 25.8244223112 -07 36 50.416365528           ~ 81 0
104 IGR J18410-0535 HXB 18 41 00.4353543192 -05 35 46.474692324   15.91   13.645 11.631 B1Ib 137 0
105 PSR J1841-0456 Psr 18 41 19.29 -04 56 11.4           ~ 266 1
106 AX J1844.8-0258 HXB 18 44 53 -02 56.0           ~ 119 0
107 Ginga 1843+009 HXB 18 45 36.8356591776 +00 51 47.437790184     20.6   16.616 B0-2IV-Ve 112 0
108 IGR J18483-0311 HXB 18 48 17.2064716656 -03 10 16.865225040 23.702 25.162 21.884 17.888 15.88 OBIII 126 0
109 4U 1850-03 HXB 18 48 17.7 -02 25 13           Be? 109 1
110 XTE J1855-026 HXB 18 55 30.4058947392 -02 36 16.737653700   16.451 14.512 14.056   B0Iaep 96 0
111 XTE J1858+034 HXB 18 58 35.6252850353 +03 26 10.535956648           B?e 83 0
112 4U 1901+03 HXB 19 03 39.3926409480 +03 12 15.758070228           OB 108 0
113 XTE J1906+090 HXB 19 04 47.491 +09 02 41.40           Be? 29 0
114 GBS 1900+14 gB 19 07 13 +09 19.6           ~ 857 0
115 4U 1907+09 HXB 19 09 38.0514267264 +09 49 47.270139132   19.41 16.35 15.570 12.53 O9.5Iab 345 0
116 4U 1908+075 HXB 19 10 48.2133201408 +07 35 51.707133960           O7.5/9.5If 125 0
117 XTE J1946+274 HXB 19 45 39.3568693200 +27 21 55.501637040   18.76 16.92 15.62 14.38 B0-1IV-Ve 126 0
118 KS 1947+300 HXB 19 49 35.4841147968 +30 12 31.775979852   15.16 14.22 13.53 12.88 B0Ve 174 0
119 V* V2306 Cyg XB* 19 58 14.4693586728 +32 32 42.003103200 15.16 15.94 15.71 15.76   ~ 65 0
120 IGR J20006+3210 HXB 20 00 21.8553522144 +32 11 23.130396528     13.20 15.680   BIII/V 34 0
121 V* V2246 Cyg HXB 20 32 15.2749858128 +37 38 14.843024844   22.16 19.41 17.32 15.18 B0Ve 440 0
122 GRO J2058+42 HXB 20 58 47.5371521256 +41 46 37.180486128   15.97 14.74 14.74 13.35 O9.5-B0IV-Ve 87 0
123 SAX J2103.5+4545 HXB 21 03 35.7100848936 +45 45 05.568751692   15.34 14.20 13.991 12.75 B0Ve 185 0
124 V* V490 Cep HXB 21 39 30.6903047304 +56 59 10.421969280   15.2       B1.5Ve 169 1
125 4U 2238+60 HXB 22 39 20.8443538152 +61 16 26.607472284   16.26 14.80 13.89 12.92 Be 53 0
126 2E 4673 HXB 23 01 08.14 +58 52 44.5           ~ 633 1

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