A spectroscopic analysis of the ionizing photon production efficiency in JADES and CEERS: implications for the ionizing photon budget
Abstract
We have used a combined sample of JADES and CEERS objects in order to constrain ionizing photon production efficiency ( ion) from JWST/NIRSpec and JWST/NIRCam data. We examine 163 objects at 1.06 < z < 6.71 with significant (3σ) spectroscopic detections of Hα and Hβ in order to constrain intrinsic Hα luminosities corrected from nebular dust attenuation via Balmer decrements. We constrain dust-corrected UV luminosities from best-fit spectral-energy distribution modeling. We find a sample median log10( ion,0/erg Hz-1) = 25.29+0.29-0.37, assuming f esc=0 for the escape fraction of Lyman continuum emission. We find significant correlation between ion,0 and z, with 17 objects at z > 4.64 having median log10( ion,0/erg Hz-1) = 25.38+0.38)-0.38, with those below having log10( ion,0/erg Hz-1) = 25.24+0.30-0.33. We also find significant, positive correlations between ion,0 and LUV; Wλ([O iii]); [O iii]λ5007/[O ii]λλ3726, 3729; and inverse correlations with metallicity. In contrast with some previous results, we find no trends between ion,0 and stellar mass, stellar dust attenuation, or UV slope. Applying a multivariate fit to ion,0, z, and MUV to an empirically-motivated model of reionization, and folding in f esc estimates from direct observations of the Lyman continuum at z ~ 3 from the Keck Lyman Continuum Spectroscopic survey, we find that the number of ionizing photons entering the IGM causes reionization to end at z ~ 5 - 7.
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