AnXMM–Newtonview of M101– II. Global X-ray source properties.

We present the global X-ray properties of the point source population in the grand-design spiral galaxy M101, as seen withXMM–Newton. 108 X-ray sources are detected within the D₂₅ ellipse of M101, of which∼24 are estimated to be background galaxies. Multiwavelength cross-correlations show that 20 sources are coincident with H iiregions and/or supernova remnants (SNRs), seven have identified/candidate background galaxy counterparts, six are coincident with foreground stars and one has a radio counterpart. While the spectral and timing properties of the brightest sources were presented by Jenkins et al., here we apply an X-ray colour classification scheme to split the entire source population into different types, i.e. X-ray binaries (XRBs), SNRs, absorbed sources, background sources and supersoft sources (SSSs). Approximately 60 per cent of the population can be classified as XRBs, although there is source contamination from background active galactic nuclei (AGN) in this category as they have similar spectral shapes in the X-ray regime. 15 sources have X-ray colours consistent with SNRs, three of which correlate with known SNR/H iiradio sources. Another two are promising new candidates for SNRs, one is unidentified, and the remainder are a mixture of foreground stars, bright soft XRBs and AGN candidates. We also detect 14 candidate SSSs, with significant detections in the softest X-ray band (0.3–1 keV) only. 16 sources display short-term variability during theXMM–Newtonobservation, twelve of which fall into the XRB category, giving additional evidence of their accreting nature. Using archivalChandraandROSATHigh Resolution Imager data, we find that∼40 per cent of theXMMsources show long-term variability over a baseline of up to∼10 yr, and eight sources display potential transient behaviour between observations. Sources with significant flux variations between theXMMandChandraobservations show a mixture of softening and hardening with increasing luminosity. The spectral and timing properties of the sources coincident with M101 confirm that its X-ray source population is dominated by accreting XRBs. [ABSTRACT FROM AUTHOR]