Astronomy and Astrophysics – Astrophysics
Scientific paper
2000-01-11
Astronomy and Astrophysics
Astrophysics
29 pages, 7 figures, uses aaspp4.sty, ApJ accepted
Scientific paper
10.1086/309039
The pancake collapse of pregalactic clouds under UV background radiation is explored with a one-dimensional sheet model. Here, attention is concentrated on elucidating the basic physics on the thermal evolution of pregalactic clouds exposed to diffuse UV radiation. So, we treat accurately the radiation transfer for the ionizing photons, with solving chemical reactions regarding hydrogen molecules as well as atoms. The self-shielding against UV radiation by H$_2$ Lyman-Werner bands, which regulates the photo-dissociation of hydrogen molecules, is also taken into account. As a result, it is found that when the UV background radiation is at a level of $10^{-22} (\nu/\nu_L)^{-1} {\rm erg~ s^{-1} cm^{-2} Hz^{-1} str^{-1}}$, the cloud evolution bifurcates with a critical mass as $M_{\rm SB} = 2.2\times 10^{11} M_\odot [(1+z_c)/5]^{-4.2}$, where $z_c$ is the final collapse epoch. A cloud more massive than $M_{\rm SB}$ cools below $5\times 10^3$K due to H$_2$ line emission at the pancake collapse and would undergo the initial starburst. The pancake possibly evolves into a virialized system in a dissipationless fashion. Consequently, this leads to the dissipationless galaxy formation at $3\lsim z_c \lsim 10$. A cloud less massive than $M_{\rm SB}$ cannot cool by H$_2$ emission shortly after the pancake collapse, but could cool in the course of shrinking to the rotation barrier. This is likely to lead to the dissipational galaxy formation at relatively low redshifts as $0\lsim z_c \lsim 4$. The present results provide a solid physical mechanism which controls the star formation efficiency in the pregalactic clouds. In the context of a standard CDM cosmology, $M_{\rm SB}$ lies between 1$\sigma$ and 2$\sigma$ density fluctuations.
Susa Hajime
Umemura Masayuki
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