Cluster Infall for Mass Calibration in the Stage-IV Era
Abstract
The outskirts of galaxy clusters present a promising avenue for constraining cluster masses in a way that is robust to the impact of baryonic physics. We assess the accuracy to which the cluster infall regions can be used for cluster mass calibration. Building on previous work, we parameterize the velocity distribution P(v r,v tan|r,M) of dark matter halos on scales r ≥ 5\ h-1\ Mpc as the product of the marginalized distribution P(v r|r,M) and the conditional distribution P(v tan|v r,r,M), calibrating the radial and mass dependence of these distributions in numerical simulations. We then project our model along the line-of-sight to obtain accurate predictions for the distributions of line-of-sight velocities at a given projected radius and cluster mass P(v LOS|R,M), which we can observe with spectroscopic survey data. With our model, we forecast that spectra from the Dark Energy Spectroscopic Instrument (DESI) can constrain cluster masses with sub-percent level precision, comparable to that of Stage IV weak lensing surveys.
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