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Variable Magellanic HMXB Sources versus Variable ULX Sources: Nothing to Brag about the ULX Sources (2020)

Christodoulou, Dimitris M. ; Laycock, Silas G. T. ; Cappallo, Rigel ; [et al.]

Molecular Diversity Preservation International

In: Galaxies. 2020; 8(4): 70. Published 2020 Sep 24. doi: 10.3390/galaxies8040070.

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Publication Date: 2020-09-24

Description: We carry out a meta-analysis of ultraluminous X-ray (ULX) sources that show large variabilities (by factors of 〉10) between their highest and lowest emission states in the X-ray energy range of 0.3–10 keV. We are guided by a recent stringent compilation of 25 such X-ray sources by Song et al. We examine the relation of logN versus logSmax, where N is the number of sources radiating above the maximum-flux level Smax. We find a strong deviation from all previously determined slopes in various high-mass X-ray binary (HMXB) samples. In fact, the ULX data clearly show a slope of −0.91. Thus, ULX sources do not appear to be uniform and isotropic in our Universe. We compare the ULX results against the local X-ray luminosity function of HMXBs in the Small Magellanic Cloud (SMC) constructed from our latest library that includes 41 Chandra 0.3–8 keV sources and 56 XMM-Newton 0.2–12 keV sources. The ULX data are not drawn from the same continuous distribution as the SMC data (the ULX data peak at the low tails of the SMC distributions), and none of our data sets is drawn from a normal distribution or from a log-normal distribution (they all show marked excesses at both tails). At a significance level of α=0.05 (2σ), the two-sample p-value of the Kolmogorov–Smirnov (KS) test gives p=4.7×10−3

Electronic ISSN: 2075-4434

Topics: Physics

Published by Molecular Diversity Preservation International

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MHD Accretion Disk Winds: The Key to AGN Phenomenology? (2019)

Kazanas, Demosthenes

Molecular Diversity Preservation International

In: Galaxies. 2019; 7(1): 13. Published 2019 Jan 10. doi: 10.3390/galaxies7010013.

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Publication Date: 2019-01-10

Description: Accretion disks are the structures which mediate the conversion of the kinetic energy of plasma accreting onto a compact object (assumed here to be a black hole) into the observed radiation, in the process of removing the plasma’s angular momentum so that it can accrete onto the black hole. There has been mounting evidence that these structures are accompanied by winds whose extent spans a large number of decades in radius. Most importantly, it was found that in order to satisfy the winds’ observational constraints, their mass flux must increase with the distance from the accreting object; therefore, the mass accretion rate on the disk must decrease with the distance from the gravitating object, with most mass available for accretion expelled before reaching the gravitating object’s vicinity. This reduction in mass flux with radius leads to accretion disk properties that can account naturally for the AGN relative luminosities of their Optical-UV and X-ray components in terms of a single parameter, the dimensionless mass accretion rate. Because this critical parameter is the dimensionless mass accretion rate, it is argued that these models are applicable to accreting black holes across the mass scale, from galactic to extragalactic.

Electronic ISSN: 2075-4434

Topics: Physics

Published by Molecular Diversity Preservation International

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