UV slopes of Starforming Galaxies in Strong Lensing fields at the Epoch of Reionization with JWST

Abstract

UV slopes (β) are a powerful diagnostics for galaxies at the Epoch of Reionization, tracing star formation, ISM ionization, and the escape fraction fesc of ionizing photons. Studies at low and intermediate z find a gradual β reddening with time and steeper slopes for fainter galaxies, however recent JWST studies reveal a flattening of this trend at z>7. We want measure β for galaxies at z>7.5 using the strong lensing around massive galaxy clusters to observe high-redshift and faint galaxies. The low-brightness regime is of particular interest for reionization, as most of the recent models of this process posit that numerous faint galaxies are the prime drivers of reionization. We use NIRCam and NIRSpec data from CANUCS, Technicolor, JUMPS, Silver Bullet, UNCOVER and MEGASCIENCE across 7 strong lensing fields. We find galaxies down to MUV-16 and 7.5<z<12.5. We measure eta with a forward-modelling procedure and estimate fesc for a subsample with emission line data using a relation, calibrated from a low-z sample, with UV slope, galaxy size and Hβ equivalent width. We find 378 galaxies (45 with spectrum), yielding average values β=-2.30.4, z=8.51.0, and MUV=-181. We find no significant β evolution across our redshift range, suggesting a flattening of the β-z trend above z7.5. We find a weak negative trend between β and MUV. For 14 galaxies we estimate an average fesc=0.260.22. The flat trend of β at z>7.5 suggests similar properties between 300 and 600 Myr after the Big Bang. The weak trend between β and MUV suggests an analogous composition for low- and high-mass galaxies' ISM, likely due to a lack of time for dust buildup. While average fesc is higher than necessary to ionize the IGM by z~6, the model extrapolated at low-z may overestimate its value.