REBELS-IFU: Spatially Resolved Ionizing Photon Production Efficiencies of 12 Bright Galaxies in the Epoch of Reionization

Abstract

Measuring the ionizing photon production efficiency ion,0 -- the ratio of ionizing photon output rate Q H0 to UV continuum luminosity L UV -- in galaxies at z > 6 is crucial for constraining their contribution to cosmic reionization. We present integrated and spatially resolved measurements of ion,0 for 12 exceptionally bright (MUV -22 mag) star-forming galaxies at z 7 from the REBELS survey. These measurements are based on JWST NIRSpec/IFU PRISM spectroscopy, probing the rest-frame UV and optical regime. Notably, in 8 of the 12 galaxies, the spectral coverage includes Hα, enabling self-consistent dust attenuation estimates in both the ionized gas and stellar continuum via the Balmer decrement and rest-UV slope, respectively. We find global ion,0 values ranging from 25.190.11 to 25.610.11, with a weighted mean of 25.440.15, consistent with the canonical value of 25.3. Using a sample of 25 star-forming clumps within these galaxies, we explore local variations in LyC production efficiency, finding a broader range, from 24.520.21 to 26.180.61. We identify strong correlations between ion,0 and specific star formation rate, star formation surface density, Hβ equivalent width, and stellar mass. Clumps with the highest ion,0 exhibit EW0(Hβ) 150 Angstrom, consistent with young stellar ages. From previous Lyα measurements in three galaxies, we estimate a typical Lyα escape fraction of f esc, Lyα 2\%, suggesting similar or lower escape fractions for LyC photons. Combining this with our Hα measurements, we infer ionized bubble sizes 1 pMpc, aligned with expectations from Lyα-detected systems and reionization models.

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