http://arxiv.org/abs/2301.02231
Extracting information from the total matter power spectrum with the precision needed for upcoming large cosmological surveys requires unraveling the complex effects of galaxy formation processes on the distribution of matter. In this work, we investigate the impact of baryonic physics on matter clustering at $z=0$ using a large library of power spectra from the Cosmology and Astrophysics with MachinE Learning Simulations (CAMELS) project, containing thousands of $(25\,h^{-1}{\rm Mpc})^3$ volume realizations with varying cosmology, initial random field, stellar and AGN feedback strength, sub-grid model implementation, and (magneto)-hydrodynamics methods. We show that baryonic physics can profoundly affect matter clustering on scales $k \gtrsim 0.1\,h\,\mathrm{Mpc}^{-1}$ and the magnitude of this effect is highly dependent on the details of the galaxy formation implementation and variations of cosmological and astrophysical parameters. Increasing AGN feedback strength decreases halo baryon fractions and yields generally stronger suppression of power relative to N-body simulations, while stronger stellar feedback often results in weaker overall effects by suppressing black hole growth and therefore the impact of AGN feedback. We find a broad correlation between mean baryon fraction of massive halos ($M_{\rm 200c} > 10^{13.5}$ M$\odot\,h^{-1}$) and suppression of matter clustering but with significant scatter compared to previous work owing to wider exploration of feedback parameters and cosmic variance effects. We show that a random forest regressor trained on the baryon content and abundance of halos across the full mass range $10^{10} \leq M\mathrm{halo}/{\rm M}_{\odot}\,h^{-1} < 10^{14}$ can predict the effect of galaxy formation on the matter power spectrum on scales $k = 0.5-20\,h\,\mathrm{Mpc}^{-1}$, providing access to cosmological information in the highly non-linear regime.
A. Delgado, D. Angles-Alcazar, L. Thiele, et. al.
Fri, 6 Jan 23
44/55
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