Revisiting the He II to H I ratio in the Intergalactic Medium

Abstract

We estimate the He II to H I column density ratio, η = N(He II)/N(H I), in the intergalactic medium towards the high redshift (zem = 2.885) bright quasar QSO HE 2347-4342 using Voigt-profile fitting of the H I transitions in the Lyman series and the He II Lyman-α transition as observed by the FUSE satellite. In agreement with previous studies, we find that η > 50 in most of the Lyman-α forest except in four regions where it is much smaller (η 10-20) and therefore inconsistent with photo-ionization by the UV background flux. We detect O VI and C IV absorption lines associated with two of these regions (z abs = 2.6346 and 2.6498). We show that if we constrain the fit of the H I and/or He II absorption profiles with the presence of metal components, we can accommodate η values in the range 15-100 in these systems assuming broadening is intermediate between pure thermal and pure turbulent. While simple photo-ionization models reproduce the observed N(O VI)/N(C IV) ratio, they fail to produce low η values contrary to models with high temperature (i.e T 105 K). The Doppler parameters measured for different species suggest a multiphase nature of the absorbing regions. Therefore, if low η values were to be confirmed, we would favor a multi-phase model in which most of the gas is at high temperature (> 105 K) but the metals and in particular C IV are due to lower temperature ( few 104 K) photo-ionized gas.