Evolution of the ionizing background at high redshifts

The decrease in number density of Lyman α clouds near the background quasar is an observational result that is often called the ‘proximity’ or ‘inverse’ effect. It is thought that, for nearby clouds, the flux of the quasar dominates the background radiation field, increasing the ionization state of...

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Bibliographic Details
Published in:Monthly notices of the Royal Astronomical Society 1997-01, Vol.284 (3), p.552-568
Main Authors: Cooke, A. J., Espey, B., Carswell, R. F.
Format: Article
Language:English
Subjects:
diffuse radiation
galaxies: evolution
quasars: absorption lines
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Summary:The decrease in number density of Lyman α clouds near the background quasar is an observational result that is often called the ‘proximity’ or ‘inverse’ effect. It is thought that, for nearby clouds, the flux of the quasar dominates the background radiation field, increasing the ionization state of the clouds and reducing the (observed) H i column density. In this paper we analyse a sample of 11 quasars from the literature for which accurate column density estimates of the Lyman a lines exist. We confirm, to a significance level of more than 3 σ, that the proximity effect exists. If it is related to the background flux then the intensity and evolution of the background have been constrained. Using a maximum-likelihood method, we determine the strength of the extragalactic ionizing background for 2.0 < z < 4.5, taking account of possible systematic errors in our determination and estimating the effect of biases inherent in the data. If the background is constant we find that it has an intensity of 100−30,+50J23, where J23 is defined as 1023 erg s−1 cm−2 sr−1 Hz−1. There is no significant evidence for a change in this value with redshift.
ISSN:0035-8711
1365-2966
DOI:10.1093/mnras/284.3.552