Pre-heating of the intergalactic medium by gravitational collapse and ultraviolet background

Abstract

The preheating of intergalactic medium(IGM) by structure collapsing and ultraviolet background(UVB) are investigated in cosmological hydrodynamical simulations. When gravitational collapsing is the sole heating mechanism, we find that (1) 60\%, 45\% of the IGM are heated up to S>8, 17 kev cm2 respectively at z=0, but the fractions drop rapidly to a few percents at z=2, (2) the entropy of the circum-halo gas Scir is higher than the virial entropy for more than 75 \% of the halos with masses M<1011.5 M since z=2, but the fraction higher than the entropy, Spr, required in preventive model of galaxies formation is only 15-20 \% for halos with M<1010.5 M at z=0, and decreases as redshift increases, (3)assuming a metallicity of Z ≤ 0.03 Z, the fraction of halos whose circum-halo gas having a cooling time longer than the Hubble time tcool,cir>tH is merely 5-10 \% at z 0.5, and even less at z ≥ 1 for halos with M<1010.5 M. (4) gas in the filaments undergoes the strongest preheating. Furthermore, we show that the UVB can not enhance the fraction of IGM with S>17 kev cm2, but can increase the fraction of low mass halos(<1010.5 M) that having Scir>Spr to 70 \% at z=0, and that having tcool, cir>tH to 15-30 \% at z 0.5. Our results indicate that preheating due to gravitational collapsing and UVB are inadequate to fulfil the needs of preventative model, especially for halos with 1010.5<M<1011.5 M. Nevertheless, these two mechanisms might cause large scale galactic conformity.