Metagalactic Ultraviolet Flux from Cosmic Structure Formation
Abstract
The contribution to the ultraviolet background (UVB) from thermal emission due to gas shock heated during cosmic structure formation is assessed with an updated version of Press-Schechter (Sheth & Tormen 1999) formalism. The calculation is consistent with empirical estimates based on the observed properties of galaxies and the observed cosmic star formation history. The bulk of the radiation turns out to be produced by objects in the mass range 1011- 13 Msolar, i.e. large galaxies and small groups. When compared to more conventional components (QSOs, stellar) it is found that near 1 Ry, thermal emission is comparable to stellar contributions and amounts to about 10 %, 20 % and 35 % of the total flux at redshifts of 3, 4.5 and higher, respectively; more importantly, near the ionization threshold for HeII, the thermal contribution is comparable to the QSO intensity already at redshift ~3 and dominates at redshifts above 4. In addition, thermal photons alone are enough to produce and sustain HeII reionization already at z~6. Finally, the observed Gunn-Peterson effect at high redshifts (3<z<6) constrains the escape fraction of ionizing photons from galaxies to less than a few percent.
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