The Massive and Distant Clusters of WISE Survey 2: Splashback Radii to z=1.65 from Galaxy Density Profiles

Abstract

The Massive and Distant Clusters of WISE Survey 2 (MaDCoWS2) is a WISE-selected catalog of galaxy clusters at 0.1<z<2 covering an effective area of >6000 deg2. In this paper, we derive splashback radii for this cluster ensemble from galaxy density profiles and constrain the mass threshold of the survey as a function of redshift. We use MaDCoWS2 cluster candidates at 0.4≤ z ≤ 1.65 divided into subsamples with different signal-to-noise (S/N P) and redshifts, cross-correlated with galaxies from the CatWISE2020 catalog, to obtain average surface density profiles. We perform a Markov Chain Monte Carlo analysis to derive parameter estimates for theoretical models consisting of orbiting and infalling terms. A distinct splashback feature is detected in all subsamples. The measured splashback radii span from 0.89+0.02-0.02h-1 comoving Mpc/cMpc (0.61+0.02-0.02h-1 proper Mpc/pMpc) at z=0.45 to 1.27+0.05-0.05h-1 cMpc (0.53+0.04-0.04h-1 pMpc) at z=1.54. We also find that splashback radii increase with S/N P at fixed redshift. The resultant splashback radii constrain the redshift dependence of the mass of MaDCoWS2 clusters at fixed S/N P. We calculate M 200m from the radii using a relation based on a cosmological simulation. MaDCoWS2 M 200m values derived from the simulation-based relation are lower than the expected values based on weak-lensing observations. More robust mass constraints will come from calibrating splashback radii derived from galaxy density profiles with weak lensing shear profiles from facilities such as Euclid, Rubin, and Roman.