Dissecting Reionisation with the Cosmic Star Formation and Active Galactic Nuclei Luminosity History

Abstract

The combination of the z=0-13.5 cosmic star formation history and active galactic nuclei (AGN) luminosity history as inferred by the James Webb Space Telescope is connected to the cosmic spectral energy distribution (CSED) to explore the sources of reionisation. We compute the redshift evolution of the corresponding cosmic ionising photon emissivity, the neutral fraction and the cosmic microwave background optical depth. We use the generative SED modelling code ProSpect to bracket the ionising emissivity between escape fractions of fesc = 1 - 100\% for both the stars and AGN. Stars alone could have achieved reionisation by z≈ 6 with fesc 30\% for solar metallicity (Z=0.02) stars or fesc 10\% for metal-poor (Z=10-4) stars. On the other hand, AGN by themselves would have struggled to produce sufficiently many ionising photons even with fesc = 100\%. A hybrid model containing both stars and AGN is explored where we find best fit (median 1σ) fesc= 12\% (14+9-7\%) for the stars and fesc= 63\% (60+28-32\%) for the AGN, maintained at all redshifts. In essence, the joint growth of stellar mass and supermassive black holes produces neither more nor fewer ionising photons than needed to reionise 99\% of the intergalactic medium by z≈ 6.