Observational Evidence for Intermediate-Mass Black Holes in Ultra-Luminous X-Ray Sources
Abstract
Evidence is mounting that some Ultra-luminous X-ray sources (ULXs) may contain accreting intermediate-mass black holes (IMBHs). We review the current observational evidence for IMBH-ULXs. While low-luminosity ULXs with LX ≲ 1039.5 erg s-1 (assuming isotropic emission) are consistent with mildly X-ray beamed high-mass X-ray binaries, there are a considerable number of ULXs with larger X-ray luminosities that are not easily explained by these models. Recent high-S/N XMM X-ray spectra are showing an increasing number of ULXs with "cool disks" - accretion disks with multicolor blackbody inner disk temperatures kTin 0.1-0.2 keV, consistent with accreting IMBHs. Optical emission-line studies of ULX nebulae provide useful measurements of X-ray energetics, and can thus determine if the X-rays are emitted isotropically. Analysis of an optical spectrum of the Ho II ULX nebulae implies an X-ray energy source with 1040 erg s-1 is present, suggesting an isotropically-emitting IMBH. The spatial coincidence of ULXs with dense star clusters (young clusters and globular clusters) suggests that IMBHS formed in these clusters could be the compact objects in the associated ULXs. Quasi-periodic oscillations and frequency breaks in XMM power-density spectra of ULXs also suggest that the black hole masses are more consistent with IMBHs than stellar-mass black holes. Since all of these ULXs with evidence for IMBHs are high-luminosity ULXs, i.e., LX ≳ 1040 erg s-1, we suggest that this class of ULXs is generally powered by accreting IMBHs.
- Publication:
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The Tenth Marcel Grossmann Meeting. On recent developments in theoretical and experimental general relativity, gravitation and relativistic field theories
- Pub Date:
- February 2006
- DOI:
- 10.1142/9789812704030_0032
- arXiv:
- arXiv:astro-ph/0402677
- Bibcode:
- 2006tmgm.meet..530C
- Keywords:
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- Astrophysics
- E-Print:
- Invited review talk at the Tenth Marcel Grossmann Meeting on General Relativity, Rio de Janeiro, July 20-26, 2003. Proceedings edited by M. Novello, S. Perez-Bergliaffa and R. Ruffini, World Scientific, Singapore, 2005. Full resolution version of this paper available at http://blackhole.phys.cua.edu/Colbert_MGX.pdf