Probing the cluster pressure profile with thermal Sunyaev-Zeldovich effect and weak lensing cross-correlation

Abstract

We confront the universal pressure profile (UPP) proposed by~Arnaud10 with the recent measurement of the cross-correlation function of the thermal Sunyaev-Zeldovich (tSZ) effect from Planck and weak gravitational lensing measurement from the Red Cluster Sequence lensing survey (RCSLenS). By using the halo model, we calculate the prediction of y- (lensing convergence and Compton-y parameter) and y-γ t (lensing shear and Compton-y parameter) and fit the UPP parameters by using the observational data. We find consistent UPP parameters when fixing the cosmology to either WMAP 9-year or Planck 2018 best-fitting values. The best constrained parameter is the pressure profile concentration c500=r500/r s, for which we find c500 = 2.68+1.46-0.96 (WMAP-9) and c500 = 1.91+1.07-0.65 (Planck-2018) for the y-γt estimator. The shape index for the intermediate radius region α parameter is constrained to α=1.75+1.29-0.77 and α = 1.65+0.74-0.5 for WMAP-9 and Planck-2018 cosmologies, respectively. Propagating the uncertainties of the UPP parameters to pressure profiles results in a factor of 3 uncertainty in the shape and magnitude. Further investigation shows that most of the signal of the cross-correlation comes from the low-redshift, inner halo profile (r ≤slant r vir/2) with halo mass in the range of 1014--1015\, M, suggesting that this is the major regime that constitutes the cross-correlation signal between weak lensing and tSZ.