The ionization properties of extreme nearby star-forming regions

Jacopo Chevallard, Stéphane Charlot, Peter Senchyna, Daniel P. Stark, Alba Vidal-García, Anna Feltre, Julia Gutkin, Tucker Jones, Ramesh Mainali, Aida Wofford

Published 2017-09-11Version 1

The bulk of hydrogen-ionizing photons necessary to reionize the intergalactic medium (IGM) by redshift z~6 is likely to have arisen from stars in low-mass galaxies. Whether these galaxies were numerous enough at z>6 to reionize the IGM entirely depends on their production rate of H-ionizing photons, xi_ion, and the fraction of these escaping into the IGM. We derive a novel diagnostic of xi_ion based on the equivalent width of the bright [OIII]4959,5007 line doublet, which does not require measurements of H-recombination lines. We calibrate this diagnostic through the analysis of the luminosities of 15 nebular emission lines in high-quality optical spectra of 10 low-redshift analogs of primeval galaxies, using the new-generation spectral analysis tool Beagle. The success of this analysis confirms the ability of the models to constrain the ionized-gas properties of extreme star-forming regions, paving the way to similar analyses at high redshift. The new xi_ion diagnostic can be used to derive more accurate estimates of this parameter than currently possible from the contamination by Hbeta+[OIII]4959,5007 of broad-band photometry in distant galaxies, and, in the future, from direct observations of [OIII]4959,5007 out to z~9.5 using JWST/NIRSpec.