期刊
ASTROPHYSICAL JOURNAL
卷 560, 期 2, 页码 580-591出版社
IOP PUBLISHING LTD
DOI: 10.1086/323051
关键词
cosmology : theory; galaxies : formation; intergalactic medium
We use one-dimensional radiative transfer simulations to study the evolution of H-2 gas-phase (H- catalyzed) formation and photodissociation regions in the primordial universe. We find a new positive feedback mechanism capable of producing shells of H-2 in the intergalactic medium (IGM), which are optically thick in some Lyman-Werner bands. While these shells exist, this feedback effect is important in reducing the H-2 dissociating background flux and the size of photodissociation spheres around each luminous object. The maximum background opacity of the IGM in the H-2 Lyman-Werner bands is tau (H 2)approximate to1-2 for a relic molecular fraction chi (H 2)=2x10-6, about 6 times greater than that found by Haiman, Abel, & Rees. Therefore, the relic molecular hydrogen can decrease the photodissociation rate by about an order of magnitude. The problem is relevant to the formation of small primordial galaxies with masses M(DM)less than or similar to 10(8) M-circle dot that rely on molecular hydrogen cooling to collapse. Alternatively, the universe may have remained dark for several hundred million years after the birth of the first stars, until galaxies with virial temperature T(vir)greater than or similar to 10(4) K formed.
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