期刊
ASTROPHYSICAL JOURNAL
卷 611, 期 1, 页码 40-51出版社
UNIV CHICAGO PRESS
DOI: 10.1086/422087
关键词
dust, extinction; galaxies : evolution; galaxies : high-redshift; ISM : molecules
We study the formation of molecular hydrogen on dust grain surfaces and apply our results to the high-redshift universe. We find that a range of physical parameters-in particular dust temperature and gas temperature, but not so much dust surface composition-influences the formation rate of H-2. The H-2 formation rate is found to be suppressed above gas kinetic temperatures of a few hundred K and for dust temperatures above 500 K and below 10 K. We highlight the differences between our treatment of the H-2 formation process and other descriptions in the literature. We also study the relative importance of H-2 formation on dust grains with respect to molecular hydrogen formation in the gas phase, through the H- route. The ratio of the formation rates of these two routes depends to a large part on the dust abundance, on the electron abundance, and on the relative strength of the far-ultraviolet (extra-) galactic radiation field. We find that for a cosmological evolution of the star formation rate and dust density consistent with the Madau plot, a positive feedback effect on the abundance of H-2 due to the presence of dust grains can occur at redshifts zgreater than or equal to3. This effect occurs for a dust-to-gas mass ratio as small as 10(-3) of the galactic value.
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