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paper

Predicting the CIB-$ϕ$ contamination in the cross-correlation of the tSZ effect and $ϕ$

arXiv:1701.09047 · doi:10.1051/0004-6361/201525714

Abstract

The recent release of {\it Planck} data gives access to a full sky coverage of the thermal Sunyaev-Zel'dovich (tSZ) effect and of the cosmic microwave background (CMB) lensing potential ($ϕ$). The cross-correlation of these two probes of the large-scale structures in the Universe is a powerful tool for testing cosmological models, especially in the context of the difference between galaxy clusters and CMB for the best-fitting cosmological parameters. However, the tSZ effect maps are highly contaminated by cosmic infra-red background (CIB) fluctuations. Unlike other astrophysical components, the spatial distribution of CIB varies with frequency. Thus it cannot be completely removed from a tSZ Compton parameter map, which is constructed from a linear combination of multiple frequency maps. We have estimated the contamination of the CIB-$ϕ$ correlation in the tSZ-$ϕ$ power-spectrum. We considered linear combinations that reconstruct the tSZ Compton parameter from {\it Planck} frequency maps. We conclude that even in an optimistic case, the CIB-$ϕ$ contamination is significant with respect to the tSZ-$ϕ$ signal itself. Consequently, We stress that tSZ-$ϕ$ analyses that are based on Compton parameter maps are highly limited by the bias produced by CIB-$ϕ$ contamination.