2010MNRAS.408.1540D

Query : 2010MNRAS.408.1540D

2010MNRAS.408.1540D - Mon. Not. R. Astron. Soc., 408, 1540-1550 (2010/November-1)

INTEGRAL results on supergiant fast X-ray transients and accretion mechanism interpretation: ionization effect and formation of transient accretion discs.

DUCCI L., SIDOLI L. and PAIZIS A.

Abstract (from CDS):

We performed a systematic analysis of all INTEGRAL observations from 2003 to 2009 of 14 supergiant fast X-ray transients (SFXTs), implying a net exposure time of about 30 Ms. For each source we obtained light curves and spectra (3-100 keV), discovering several new outbursts. We discuss the X-ray behaviour of SFXTs emerging from our analysis in the framework of the clumpy wind accretion mechanism we proposed. We discuss the effect of X-ray photoionization on accretion in close binary systems such as IGR J16479-4514 and IGR J17544-2619. We show that, because of X-ray photoionization, there is a high probability of an accretion disc forming from the capture of angular momentum in IGR J16479-4514, and we suggest that the formation of transient accretion discs could be partly responsible for the flaring activity in SFXTs with narrow orbits. We also propose an alternative way to explain the origin of flares with peculiar shapes observed in our analysis applying the model of Lamb et al., which is based on accretion via the Rayleigh-Taylor instability and was originally proposed to explain Type II bursts.

Journal keyword(s): X-rays: binaries - X-rays: individual: IGR J16479-4514 - X-rays: individual: IGRJ17544-2619 - X-rays: individual: XTE J1739-302/IGR J17391-3021 - X-rays: individual: AX J1841.0-0536/IGR J18410-0535

Simbad objects: 18

Full paper

View the references in ADS

Number of rows : 18

N	Identifier	Otype	ICRS (J2000) RA	ICRS (J2000) DEC	Mag U	Mag B	Mag V	Mag R	Mag I	Sp type	#ref 1850 - 2023	#notes
1	V* GP Vel	HXB	09 02 06.8608812864	-40 33 16.899168060	6.85	7.37	6.87	6.31	6.05	B0.5Ia	1459	0
2	HD 306414	s*b	11 21 46.8238550520	-59 51 47.970396396	10.12	10.69	10.23	10.00		B1Ia	144	0
3	HD 146628	*	16 19 29.5214538960	-49 45 40.715149896	10.23	10.58	10.06	10.02		B1/2Ia	69	1
4	IGR J16195-4945	HXB	16 19 32.1832111152	-49 44 30.565493340		17.4	16.8	15.3	15.6	B1sg	52	0
5	CXOU J162046.2-513006	HXB	16 20 46.2644580432	-51 30 06.045320232		18.9		16.28	13.4	B8IIIe	60	0
6	2MASS J16415078-4532253	HXB	16 41 50.7984926736	-45 32 25.366995132						O8.5(sg?)	101	2
7	2MASS J16463526-4507045	HXB	16 46 35.2590465192	-45 07 04.609890912		15.2				O9.5Ia	93	1
8	2MASS J16480656-4512068	HXB	16 48 06.56	-45 12 06.8						O8.5Iab	128	2
9	AX J1739.1-3020	HXB	17 39 11.5515537336	-30 20 37.787917704			14.40	13.91		O8.5Iab(f)	151	1
10	2RXP J174040.9-280852	HXB	17 40 41.2	-28 08 50						~	24	1
11	SWIFT J1743.1-3620	HXB	17 43 01.33608	-36 22 22.1844				16.8		OI	46	0
12	IGR J17544-2619	HXB	17 54 25.2722906112	-26 19 52.576928292		14.71	12.94	12.10	10.38	O9Ib	176	0
13	SAX J1818.6-1703	HXB	18 18 37.8984077808	-17 02 47.967846180			17.4	17.4		~	97	0
14	4FGL J1821.1-1422	HXB	18 20 29.5	-14 34 24						O9.5-B0Ve	58	1
15	[KRL2007b] 332	HXB	18 41 00.43	-05 35 46.5						B1Ib	126	1
16	[KRL2007b] 335	HXB	18 45 01.5	-04 33 58		16.24	14.06	12.71	11.42	O9Ia	84	0
17	IGR J18483-0311	HXB	18 48 17.2064716656	-03 10 16.865225040	23.702	25.162	21.884	17.888	15.88	B0.5Ia	117	0
18	V* V2246 Cyg	HXB	20 32 15.2749858128	+37 38 14.843024844		22.16	19.41	17.32	15.18	C:	412	0

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