scholarly journals Supercritical accretion disks in ultraluminous X-ray sources and SS 433

2015 ◽  
Vol 11 (7) ◽  
pp. 551-553 ◽  
Author(s):  
Sergei Fabrika ◽  
Yoshihiro Ueda ◽  
Alexander Vinokurov ◽  
Olga Sholukhova ◽  
Megumi Shidatsu
Keyword(s):  
Accretion Disks ◽  
X Ray ◽  
Ss 433 ◽  
Supercritical Accretion

scholarly journals The supercritical accretion disk in SS 433 and ultraluminous X-ray sources

2006 ◽  
Vol 2 (S238) ◽  
pp. 225-228
Author(s):  
S. N. Fabrika ◽  
P. K. Abolmasov ◽  
S. Karpov
Keyword(s):  
Accretion Disk ◽  
Accretion Disks ◽  
X Rays ◽  
X Ray ◽  
Ss 433 ◽  
Disk Wind ◽  
Flux Variability ◽  
Typical Time ◽  
Supercritical Accretion ◽  
External Galaxies

AbstractSS 433 is the only known persistent supercritical accretor, it may be very important for understanding ultraluminous X-ray sources (ULXs) located in external galaxies. We describe main properties of the SS 433 supercritical accretion disk and jets. Basing on observational data of SS 433 and published 2D simulations of supercritical accretion disks we estimate parameters of the funnel in the disk/wind of SS 433. We argue that the UV radiation of the SS 433 disk (∼ 50000 K, ∼ 1040erg/s) is roughly isotropic, but X-ray radiation (∼ 107K, ∼ 1040erg/s) of the funnel is mildly anisotropic. A face-on SS 433 object has to be ultraluminous in X-rays (1040–41erg/s). Typical time-scales of the funnel flux variability are estimated. Shallow and very broad (0.1-0.3c) and blue-shifted absorption lines are expected in the funnel X-ray spectrum.

scholarly journals Face-on SS 433 Stars as a Possible New Type of Extragalactic X-Ray Sources

2001 ◽  
Vol 205 ◽  
pp. 268-269 ◽  
Author(s):  
S. Fabrika ◽  
A. Mescheryakov
Keyword(s):  
X Rays ◽  
Relativistic Jets ◽  
Expected Frequency ◽  
X Ray ◽  
Ss 433 ◽  
Sky Survey ◽  
Supercritical Accretion ◽  
The Face ◽  
New Type ◽  
Positive Correlations

The object SS433 is a well-known source of relativistic jets, which are formed in supercritical accretion disk. It is very probable that the disk has polar channels and their radiation is collimated (the photo-cones). A face-on SS433 object can appear as ultra-bright and highly variable X-ray source, Lx ˜ 1040 − 1042 erg/s. We discuss the properties of these hypothetical objects and their frequency expected in galaxies. We describe a search for such objects using the ROSAT All Sky Survey and RC3 catalog of galaxies. Among the total 418 positive correlations we find that 142 sources in S and Irr galaxies are unknown as AGNs. Nuclear sources among them still contain many AGNs. Non-nuclear (offset) sources are rather hard, their X-ray luminosities are 1039 − 1041 erg/s. Their observed frequency is about 4–5% per galaxy, that is in agreement with expected frequency of the face-on SS 433 stars. The only way to recognize such stars is their expected violent variability in X rays.

scholarly journals X-ray variability of SS 433: effects of the supercritical accretion disc

2014 ◽  
Vol 446 (1) ◽  
pp. 893-910 ◽  
Author(s):  
Kirill Atapin ◽  
Sergei Fabrika ◽  
Aleksei Medvedev ◽  
Alexander Vinokurov
Keyword(s):  
Accretion Disc ◽  
X Ray ◽  
Ss 433 ◽  
Supercritical Accretion

scholarly journals X-ray radiation of the jets and the supercritical accretion disk in SS 433

2010 ◽  
Vol 6 (S275) ◽  
pp. 280-284 ◽  
Author(s):  
Sergei Fabrika ◽  
Alexei Medvedev
Keyword(s):  
Accretion Disk ◽  
Spectral Component ◽  
Emission Lines ◽  
X Rays ◽  
X Ray ◽  
Ss 433 ◽  
Disk Wind ◽  
Bolometric Luminosity ◽  
Supercritical Accretion ◽  
The Continuum

AbstractThe observed X-ray luminosity of SS 433 is ~1036 erg/s, it is known that all the radiation is formed in the famous SS 433 jets. The bolometric luminosity of SS 433 is ~1040 erg/s, and originally the luminosity must be realized in X-rays. The original radiation is probably thermalized in the supercritical accretion disk wind, however the missing more than four orders of magnitude is surprising. We have analysed the XMM-Newton spectra of SS 433 using a model of adiabatically and radiatively cooling X-ray jets. The multi-temperature thermal jet model reproduces very well the strongest observed emission lines, but it can not reproduce the continuum radiation and some spectral features. We have found a notable contribution of ionized reflection to the spectrum in the energy range from ~3 to 12 keV. The reflected spectrum is an evidence of the supercritical disk funnel, where the illuminating radiation comes from deeper funnel regions, to be further reflected in the outer visible funnel walls (r ≥ 2 ⋅ 1011 cm). The illuminating spectrum is similar to that observed in ULXs, its luminosity has to be no less than ~1039 erg/s. A soft excess has been detected, that does not depend on the thermal jet model details. It may be represented as a BB with a temperature of Tbb ≈ 0.1 keV and luminosity of Lbb~3 ⋅ 1037 erg/s. The soft spectral component has about the same parameters as those found in ULXs.

scholarly journals An Upper Limit on Nickel Overabundance in the Supercritical Accretion Disk Wind of SS 433 from X-ray Spectroscopy

2018 ◽  
Vol 44 (6) ◽  
pp. 390-410 ◽  
Author(s):  
P. S. Medvedev ◽  
I. I. Khabibullin ◽  
S.Yu. Sazonov ◽  
E. M. Churazov ◽  
S. S. Tsygankov
Keyword(s):  
Accretion Disk ◽  
X Ray ◽  
Ss 433 ◽  
Disk Wind ◽  
Upper Limit ◽  
Supercritical Accretion

scholarly journals X-ray variability of SS 433: Evidence for supercritical accretion

2016 ◽  
Vol 42 (8) ◽  
pp. 517-530 ◽  
Author(s):  
K. E. Atapin ◽  
S. N. Fabrika
Keyword(s):  
X Ray ◽  
Ss 433 ◽  
Supercritical Accretion

scholarly journals Radiation-Driven Warping: The Origin of Warps and Precession in Accretion Disks

1997 ◽  
Vol 163 ◽  
pp. 311-320 ◽  
Author(s):  
Philip R. Maloney ◽  
Mitchell C. Begelman
Keyword(s):  
Active Galactic Nuclei ◽  
Accretion Disk ◽  
Accretion Disks ◽  
Radiation Pressure ◽  
Global Analysis ◽  
Galactic Nuclei ◽  
Local Analysis ◽  
X Ray ◽  
Ss 433 ◽  
X Ray Binaries

AbstractA geometrically thin, optically thick, warped accretion disk with a central source of luminosity is subject to non-axisymmetric forces due to radiation pressure; the resulting torque acts to modify the warp. Initially planar accretion disks are unstable to warping driven by radiation torque, as shown in a local analysis by Pringle (1996) and a global analysis of the stable and unstable modes by Maloney, Begelman, & Pringle (1996). In general, the warp also precesses.We discuss the nature of this instability, and its possible implications for accretion disks in X-ray binaries and active galactic nuclei. Specifically, we argue that this effect provides a plausible explanation for the misalignment and precession of the accretion disks in X-ray binaries such as SS 433 and Her X–l; the same mechanism explains why the maser disk in NGC 4258 is warped.

scholarly journals IUE Studies of Luminous X-Ray Binaries

1983 ◽  
Vol 6 ◽  
pp. 648-648
Author(s):  
J.B. Hutchings
Keyword(s):  
Magellanic Clouds ◽  
Thick Shell ◽  
High Luminosity ◽  
Uv Spectrum ◽  
X Ray ◽  
Unique Object ◽  
The Future ◽  
Orbit Inclination ◽  
Supercritical Accretion ◽  
X Ray Binaries

IUE has been used to study 11 high luminosity X-ray binaries, of which 3 are in the Magellanic Clouds. In the supergiant systems, X-ray ionisation bubbles have been found in most cases, leading to a greater understanding of the winds and accretion processes. Further studies of precessing objects such as LMC X-4 with IUE and ST are clearly of considerable interest, relating to X-ray heating and blanketing. Detailed studies of the Cyg X-l ionisation bubble may resolve the long standing puzzle of its orbit inclination and masses. UV continua have furnished valuable information on extinction, temperatures and luminosities, and the presence of non-stellar (i.e. disk) luminosity. Here too, more detailed studies are clearly indicated for the future. A unique object of interest is the LMC transient 0538-66 whose UV spectrum has quasarlike lines and luminosity which varies oppositely to the visible. This may be a case of supercritical accretion generating an optically thick shell (“disk”) about the pulsar.

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