Astronomy and Astrophysics – Astrophysics
Scientific paper
2003-10-21
Astrophys.J.607:931-938,2004
Astronomy and Astrophysics
Astrophysics
8 pages, 6 figres, 3 in color, uses emulateapj.sty and apjfonts.sty, ApJ accepted
Scientific paper
10.1086/383563
We report the results of an analysis of two XMM-Newton/EPIC-pn spectra of the bright ultraluminous X-ray source M81 X-9 (Holmberg IX X-1), obtained in snapshot observations. Soft thermal emission is clearly revealed in spectra dominated by hard power-law components. Depending on the model used, M81 X-9 was observed at a luminosity of L_X = 1.0-1.6 E+40 erg/s (0.3--10.0 keV). The variability previously observed in this source signals that it is an accreting source which likely harbors a black hole. Remarkably, accretion disk models for the soft thermal emission yield very low inner disk temperatures (kT = 0.17-0.29 keV, including 90% confidence errors and variations between observations and disk models), and improve the fit statistic over any single-component continuum model at the 6 sigma level of confidence. Like NGC 1313 X-1, scaling the temperatures measured in M81 X-9 to those commonly seen in stellar-mass Galactic black holes at their highest observed fluxes (kT ~ 1 keV) may imply that M81 X-9 harbors a black hole with a mass on the order of 10^3 Msun; the measured disk component normalization and broad-band luminosity imply black hole masses on the order of 10^2 Msun. It is therefore possible that these sources harbor 10^3 Msun black holes accreting such at L_X ~ 0.1*L_Edd. Radio and optical observations suggest that beaming and anisotropic emission from a stellar-mass black hole are unlikely to account for the implied luminosity. We further argue that the strength of the hard emission in these sources and well-established phenomena frequently observed in stellar-mass black holes near to the Eddington limit suggest that optically-thick photospheres are unlikely to be the origin of the cool thermal emission in bright ULXs.
Fabian Andrea C.
Miller John Mcl.
Miller Michael Coleman
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