Astroparticle Constraints from the Cosmic Star Formation Rate Density at High Redshift: Current Status and Forecasts for JWST

Abstract

We exploit the recent determination of cosmic star formation rate (SFR) density at redshifts z 4 to derive astroparticle constraints on three common dark matter scenarios alternative to standard cold dark matter (CDM): warm dark matter (WDM), fuzzy dark matter () and self-interacting dark matter (SIDM). Our analysis relies on the UV luminosity functions measured by the Hubble Space Telescope out to z 10 and down to UV magnitudes M UV -17. We extrapolate these to fainter yet unexplored magnitude ranges, and perform abundance matching with the halo mass functions in a given DM scenario, so obtaining a relationship between the UV magnitude and the halo mass. We then compute the cosmic SFR density by integrating the extrapolated UV luminosity functions down to a faint magnitude limit M UV lim, which is determined via the above abundance matching relationship by two free parameters: the minimum threshold halo mass M H GF for galaxy formation, and the astroparticle quantity X characterizing each DM scenario (namely, particle mass for WDM and , and kinetic temperature at decoupling TX for SIDM). We perform Bayesian inference on such parameters via a MCMC technique by comparing the cosmic SFR density from our approach to the current observational estimates at z 4, constraining the WDM particle mass to mX≈ 1.2+0.3\,(11.3)-0.4\,(-0.5) keV, the particle mass to mX≈ 3.7+1.8\,(+12.9.3)-0.4\,(-0.5)× 10-22 eV, and the SIDM temperature to TX≈ 0.21+0.04\,(+1.8)-0.06\,(-0.07) keV at 68\% (95\%) confidence level. We then forecast how such constraints will be strengthened by upcoming refined estimates of the cosmic SFR density, if the early data on the UV luminosity function at z 10 from JWST will be confirmed down to ultra-faint magnitudes.

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