Cross-correlation of cosmic voids with thermal Sunyaev-Zel'dovich data

Abstract

We provide a measurement of the deficit in the Sunyaev-Zel'dovich Compton-y signal towards cosmic voids, by stacking a catalogue of 97,090 voids constructed with BOSS-DR12 data, on the y maps built on data from the Atacama Cosmology Telescope (ACT) DR4 and the Planck satellite. We detect the void signal with a significance of 7.3\,σ with ACT and 9.7\,σ with Planck, obtaining agreements in the associated void radial y profiles extracted from both maps. The inner-void profile (for angular separations within the void angular radius) is reconstructed with significances of 4.7σ and 6.1σ with ACT and Planck, respectively; we model such profile using a simple model that assumes uniform gas (under)density and temperature, which enables us to place constraints on the product (-δ vT e) of the void density contrast (negative) and the electron temperature. The best-fit values from the two data sets are (-δ vT e)=(6.5 2.3)× 105\,K for ACT and (8.6 2.1)× 105\,K for Planck (68\% C.L.), which are in good agreement under uncertainty. The data allow us to place lower limits on the expected void electron temperature at 2.7×105\,K with ACT and 5.1×105\,K with Planck (95\% C.L.); these results can transform into upper limits for the ratio between the void electron density and the cosmic mean as n v e/n e≤slant 0.73 and 0.49 (95\% C.L.), respectively. Our findings prove the feasibility of using tSZ observations to constrain the gas properties inside cosmic voids, and confirm that voids are under-pressured regions compared to their surroundings.

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