Splashback radius and the mass accretion rate of RASS MCMF galaxy clusters

Abstract

We present measurements of the radial profile of mass and galaxy number density around X-ray selected ROSAT All Sky Survey-Multi-Component Matched Filter galaxy clusters using Year 3 data from the Dark Energy Survey. We measure the projected cross-correlation signal of the RedMaGiC "high density" galaxies around an approximately volume-limited sample of 255 galaxy clusters at a median redshift of z=0.4 and an X-ray luminosity LX > 1044 \,ergs \, s-1 \, h-2. This cross-correlation signal measured with a signal-to-noise ratio of 16.41 allows us to infer a 3D number density profile which shows a significant steepening at the edges of these galaxy clusters, namely the splashback radius of rsp /h-1 M = 2.19+0.50-0.43. We present the dependence of the splashback radius value over a range of absolute galaxy magnitude cuts to look for any evidence of dynamical friction affecting these results. The weak lensing signal around our galaxy clusters measured with a signal-to-noise ratio of 32.19 allows us to infer a halo mass log (M 200m / h-1 Mpc) = 14.68-0.04+0.04. Comparison of the location of the splashback radius with the spherical overdensity boundary r 200m shows consistency with the CDM predictions. We present the first inference of the average mass accretion rate of galaxy clusters using our measurements of the splashback radius.