期刊
ASTROPHYSICAL JOURNAL
卷 682, 期 1, 页码 14-28出版社
IOP PUBLISHING LTD
DOI: 10.1086/589613
关键词
cosmology : theory; diffuse radiation; intergalactic medium
资金
- Direct For Mathematical & Physical Scien
- Division Of Astronomical Sciences [0829737] Funding Source: National Science Foundation
The temperature of the intergalactic medium ( IGM) is set by the competition between photoheating and adiabatic cooling, which are usually assumed to define a tight equation of state in which the temperature increases monotonically with density. We use a semianalytic model, accurate at low to moderate IGM densities (less than or similar to 5 times the mean), to show that inhomogeneous reionization can substantially modify these expectations. Because reionization is driven by biased sources, dense pockets of the IGM are likely to be ionized first. As a result, voids initially remain cool while dense regions are heated substantially. However, near the end of reionization, dense regions have already cooled from their initially large temperature while voids have only just been heated. Thus, near the end of helium reionization the equation of state can invert itself, with the hottest gas inside voids. The degree to which this happens depends on the magnitude of the density bias during reionization: if rare, bright sources dominate reionization, so that each ionized region contains a typical volume of the IGM, the equation of state will remain monotonic. We also show that the distribution of temperatures at a fixed density has significant scatter and evolves rapidly throughout and even after reionization. Finally, we show that the observed temperature jump at z similar to 3: 2 is consistent with the behavior at the end of helium reionization, although it requires a somewhat larger temperature increase than expected.
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