Constraining Baryonic Physics with DES Y1 and Planck data -- Combining Galaxy Clustering, Weak Lensing, and CMB Lensing

Abstract

We constrain cosmology and baryonic feedback scenarios with a joint analysis of weak lensing, galaxy clustering, cosmic microwave background (CMB) lensing, and their cross-correlations (so-called 6×2) using data from the Dark Energy Survey (DES) Y1 and the Planck satellite mission. Noteworthy features of our 6×2 pipeline are: We extend CMB lensing cross-correlation measurements to a band surrounding the DES Y1 footprint (a 25\% gain in pairs), and we develop analytic covariance capabilities that account for different footprints and all cross-terms in the 6×2 analysis. We also measure the DES Y1 cosmic shear two-point correlation function (2PCF) down to 0. 25, but find that going below 2. 5 does not increase cosmological information due to shape noise. We model baryonic physics uncertainties via the amplitude of Principal Components (PCs) derived from a set of hydro-simulations. Given our statistical uncertainties, varying the first PC amplitude Q1 is sufficient to model small-scale cosmic shear 2PCF. For DES Y1+Planck 6×2 we find S8=0.7990.016, comparable to the 5×2 result of DES Y3+SPT/Planck S8=0.7730.016. Combined with our most informative cosmology priors -- baryon acoustic oscillation (BAO), big bang nucleosynthesis (BBN), type Ia supernovae (SNe Ia), and Planck 2018 EE+lowE, we measure S8=0.817 0.011. Regarding baryonic physics constraints, our 6×2 analysis finds Q1=2.81.8. Combined with the aforementioned priors, it improves the constraint to Q1=3.51.3. For comparison, the strongest feedback scenario considered in this paper, the cosmo-OWLS AGN ( Theat=108.7 K), corresponds to Q1=5.84.

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