The hot circumgalactic medium in the eROSITA All-Sky Survey I. X-ray surface brightness profiles

Abstract

The circumgalactic medium (CGM) provides the material needed for galaxy formation and influences galaxy evolution. The hot (T>106K) CGM is poorly detected around galaxies with stellar masses (M*) lower than 3×1011M due to the low surface brightness. We used the X-ray data from the first four SRG/eROSITA All-Sky Surveys (eRASS:4). Based on the SDSS spectroscopic survey and halo-based group finder algorithm, we selected central galaxies with spectroscopic redshifts of z spec<0.2 and stellar masses of 10.0<(M*/M)<11.5 (85,222 galaxies) -- or halo masses of 11.5<(M 200m/M)<14.0 (125,512 galaxies). By stacking the X-ray emission around galaxies, masking the detected X-ray point sources and carefully modeling the X-ray emission from the unresolved active galactic nuclei (AGN) and X-ray binaries (XRB), we obtain the X-ray emission from the hot CGM. We detected the X-ray emission around MW-mass and more massive central galaxies extending up to the virial radius (R vir). We used a β model to describe the X-ray surface brightness profile and found β =0.43+0.10-0.06\,(0.37+0.04-0.02) for MW-mass (M31-mass) galaxies.We estimated the baryon budget of the hot CGM and obtained a value that is lower than the prediction of cosmology, indicating significant gas depletion in these halos. We extrapolated the hot CGM profile measured within R vir to larger radii and found that within ≈ 3 R vir, the baryon budget is close to the cosmology prediction. Our results set a firm footing for the presence of the hot CGM around such galaxies. These measurements constitute a new benchmark for galaxy evolution models and possible implementations of feedback processes therein.