Cross-correlation between the thermal Sunyaev-Zeldovich effect and the Integrated Sachs-Wolfe effect
Abstract
We present a joint cosmological analysis of the power spectra measurement of the Planck Compton parameter and the integrated Sachs-Wolfe (ISW) maps. We detect the statistical correlation between the Planck Thermal Sunyaev-Zeldovich (tSZ) map and ISW data with a significance of a 3.6σ confidence level~(CL), with the autocorrelation of the Planck tSZ data being measured at a 25 σ CL. The joint auto- and cross-power spectra constrain the matter density to be m= 0.317+0.040-0.031, the Hubble constant H0=66.5+2.0-1.9\, km\, s-1\, Mpc-1 and the rms matter density fluctuations to be σ8=0.730+0.040-0.037 at the 68% CL. The derived large-scale structure S8 parameter is S8 σ8( m/0.3)0.5 = 0.7550.060 . If using only the diagonal blocks of covariance matrices, the Hubble constant becomes H0=69.7+2.0-1.5\, km\, s-1\, Mpc-1. In addition, we obtain the constraint of the product of the gas bias, gas temperature, and density as b gas (T e/(0.1\, keV) ) (n e/1\, m-3 ) = 3.09+0.320-0.380. We find that this constraint leads to an estimate on the electron temperature today as T e=(2.40+0.250-0.300) × 106 \, K, consistent with the expected temperature of the warm-hot intergalactic medium. Our studies show that the ISW-tSZ cross-correlation is capable of probing the properties of the large-scale diffuse gas.
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