Reconstructing the shape of the non-linear matter power spectrum using CMB lensing and cosmic shear

Abstract

We reconstruct the non-linear matter power spectrum P(k) using a joint analysis of gravitational lensing of the cosmic microwave background (CMB) and lensing of galaxies. This reconstruction is motivated by the S8 tension between early-universe CMB predictions and late-time observables. We use CMB lensing data from the Atacama Cosmology Telescope DR6 and cosmic shear data from the Dark Energy Survey (DES) Y3 release to perform a gravity-only (i.e. no baryonic feedback) fit to P(k) in bins of wave-number, within CDM. We find that with DES cosmic shear data alone, P(k) departs from the early-universe CMB prediction on all scales. The joint fit with CMB lensing is consistent on large scales k<0.2 \; Mpc-1 but shows a 2 σ deviation from scale-independence when extending to k = 10 \;h/Mpc. We compare our agnostic P(k) reconstruction to baryonic feedback models and non-standard dark matter models: reasonable variations of both scenarios can recover the shape and amplitude of the suppression. We discuss the advances needed to disentangle these physical effects with a full mapping of P(k,z).

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