Observational constraints on key-parameters of cosmic reionisation history

Abstract

We discuss constraints on cosmic reionisation and their implications on a cosmic SFR density SFR model; we study the influence of key-parameters such as the clumping factor of ionised hydrogen in the intergalactic medium (IGM) CHII and the fraction of ionising photons escaping star-forming galaxies to reionise the IGM fesc. Our analysis uses SFR history data coming from luminosity functions, assuming that star-forming galaxies were sufficient to lead the reionisation process at high redshift. We add two other sets of constraints: measurements of the IGM ionised fraction and the most recent result from Planck Satellite about the integrated Thomson optical depth of the Cosmic Microwave Background (CMB) τPlanck. We also consider various possibilities for the evolution of these two parameters with redshift, and confront them with observational data cited above. We conclude that, if the model of a constant clumping factor is chosen, the fiducial value of 3 often used in papers is consistent with observations; even if a redshift-dependent model is considered, the resulting optical depth is strongly correlated to CHII mean value at z>7, an additional argument in favour of the use of a constant clumping factor. Besides, the escape fraction is related to too many astrophysical parameters to allow us to use a complete and fully satisfactory model. A constant value with redshift seems again to be the most likely expression: considering it as a fit parameter, we get from the maximum likelihood (ML) model fesc=0.240.08; with a redshift-dependent model, we find an almost constant evolution, slightly increasing with z, around fesc=0.23. Last, our analysis shows that a reionisation beginning as early as z≥14 and persisting until z6 is a likely storyline.