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We present the results of XMM-Newton survey of the northern part of the disk of M31. The results of a spectral and timing analysis of the thirty seven brightest sources are presented. Combining the results of X-ray analysis with available data at other wavelengths, we were able to classify ~50%, or 19 out of 37 sources. Two sources in our sample were previously unknown: the hard X-ray source XMMU J004415.8+413057 and a transient supersoft source XMMUJ004414.1+412206. We report the discovery of possible X-ray pulsations from the source XMMUJ004415.8+413057 with a period of 197 s. The spectral and timing properties of XMMU J004415.8+413057 make it first accreting X-ray pulsar candidate detected in M31. We report on the first unambiguous detection of the soft unresolved X-ray emission from the disk of M31. The unresolved emission follows the pattern of the spiral arms and can be traced up to distance of ~0.5 deg (~7 kpc at 760 kpc) from the center of the galaxy. The spectrum of the unresolved emission shows dominant soft thermal component which can be fitted with a ~0.3 keV optically thin thermal plasma emission models. We suggest that significant part of this diffuse soft X-ray component may represent hot diffuse gas in the spiral arms of M31 and emission from normal stars in the disk of M31.
We present the results of the ongoing XMM-Newton survey of M31. 17 X-ray sources detected in the survey have bright radio counterparts, and 15 X-ray sources coincide with SNR candidates from optical and radio surveys. 15 out of 17 sources with radio
We analyzed two XMM-Newton observations in the direction of the high density, high latitude, neutral hydrogen cloud MBM20 and of a nearby low density region that we called the Eridanus hole. The cloud MBM20 is at a distance evaluated between 100 and
(Abridged) We present the results of M31 globular cluster (GC) X-ray source survey, based on the data of XMM-Newton and Chandra observations covering ~6100 sq.arcmin of M31. We detected 43 X-ray sources coincident with globular cluster candidates fro
Power density spectra (PDS) that are characteristic of low mass X-ray binaries (LMXBs) have been previously reported for M31 X-ray sources observed by XMM-Newton. However, we have recently discovered that these PDS are false positives resulting from