Dark Energy from the Thermal Sunyaev Zeldovich Power Spectrum

Abstract

We constrain the dark energy equation of state parameter, w, using the power spectrum of the thermal Sunyaev-Zeldovich (tSZ) effect. We improve upon previous analyses by taking into account the trispectrum in the covariance matrix and marginalising over the foreground parameters, the correlated noise, the mass bias B in the Planck universal pressure profile, and all the relevant cosmological parameters (i.e., not just m and σ8). We find that the amplitude of the tSZ power spectrum at 103 depends primarily on F σ8(m/B)0.40h-0.21, where B is related to more commonly used variable b by B=(1-b)-1. We measure this parameter with 2.6\% precision, F=0.460 0.012 (68% CL). By fixing the bias to B=1.25 and adding the local determination of the Hubble constant H0 and the amplitude of the primordial power spectrum constrained by the Planck Cosmic Microwave Background (CMB) data, we find w=-1.100.12, σ8=0.8020.037, and m=0.2650.022 (68% CL). Our limit on w is consistent with and is as tight as that from the distance-alone constraint from the CMB and H0. Finally, by combining the tSZ power spectrum and the CMB data we find, in the Cold Dark Matter (CDM) model, the mass bias of B=1.71 0.17, i.e., 1-b=0.58 0.06 (68% CL).