Detection of thermal Sunyaev-Zel'dovich Effect in the circumgalactic medium of low-mass galaxies -- a surprising pattern in self-similarity and baryon sufficiency

Abstract

We report on the measurement of the thermal Sunyaev-Zel'dovich (tSZ) Effect in the circumgalactic medium (CGM) of 641,923 galaxies with M= 109.8-11.3M at z<0.5, pushing the exploration of tSZ Effect to lower-mass galaxies compared to previous studies. We cross-correlate the galaxy catalog of WISE and SuperCosmos with the Compton-y maps derived from the combined data of Atacama Cosmology Telescope and Planck. We improve on the data analysis methods (correcting for cosmic infrared background and Galactic dust, masking galaxy clusters and radio sources, stacking, aperture photometry), as well as modeling (taking into account beam smearing, "two-halo" term, zero-point offset). We have constrained the thermal pressure in the CGM of M= 1010.6-11.3M galaxies for a generalized NFW profile and provided upper limits for M= 109.8-10.6M galaxies. The relation between M500 (obtained from an empirical M- M200 relation and a concentration factor) and YsphR500 (a measure of the thermal energy within R500) is >2σ steeper than the self-similarity and the deviation from the same that has been reported previously in higher mass halos. We calculate the baryon fraction of the galaxies, fb, assuming the CGM to be at the virial temperature that is derived from M200. fb exhibits a non-monotonic trend with mass, with M= 1010.9-11.2M galaxies being baryon sufficient.