Exploiting synergies between JWST and cosmic 21-cm observations to uncover star formation in the early Universe

Abstract

In the current era of JWST, we continue to uncover a wealth of information about the Universe deep into the Epoch of Reionization. In this work, we use a suite of simulations with 21cmSPACE, to explore the astrophysical properties of early galaxies and their imprint on high-redshift observables. Our analysis incorporates a range of multi-wavelength datasets including UV luminosity functions (UVLFs) from HST and JWST spanning z=6-14.5, the 21-cm global signal and power spectrum limits from SARAS 3 and HERA respectively, as well as present-day diffuse X-ray and radio backgrounds. We constrain a flexible halo-mass and redshift dependent model of star-formation efficiency (SFE), defined as the fraction of gas converted into stars, and find that it is best described by minimal redshift evolution at z≈ 6-10, followed by rapid evolution at z≈10-15. Using Bayesian inference, we derive functional posteriors of the SFE, inferring that halos of mass Mh=1010\,M have efficiencies of ≈ 1 - 2\% at z10, ≈8\% at z=12 and ≈21\% at z=15. We also highlight the synergy between UVLFs and global 21-cm signal from SARAS 3 in constraining the minimum virial conditions required for star-formation in halos. In parallel, we find the X-ray and radio efficiencies of early galaxies to be fX = 0.8+9.7-0.4 and fr 16.9 respectively, improving upon previous works that exclude UVLF data. Our results underscore the critical role of UVLFs in constraining early galaxy properties, and their synergy with 21-cm and other multi-wavelength observations.

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