Formation of subgalactic clouds under ultraviolet background radiation
スポンサーリンク
概要
- 論文の詳細を見る
The effects of the ultraviolet (UV) background radiation on the formation of subgalactic clouds are studied by means of one-dimensional hydrodynamical simulations. The radiative transfer of the ionizing photons caused by the absorption by H I, He I, and He II, neglecting the emission, is explicitly taken into account. We find that the complete suppression of collapse occurs for the clouds with circular velocities typically in the range Vc ~ 15-40 km s-1 and the 50% reduction in the cooled gas mass with Vc ~ 20-55 km s-1. These values depend most sensitively on the collapse epoch of the cloud, the shape of the UV spectrum, and the evolution of the UV intensity. Compared with the optically thin case, previously investigated by Thoul & Weinberg in 1996, the absorption of the external UV photons by the intervening medium systematically lowers the above threshold values by ΔVc ~ 5 km s-1. Whether the gas can contract or keeps expanding is roughly determined by the balance between the gravitational force and the thermal pressure gradient when it is maximally exposed to the external UV flux. Based on our simulation results, we discuss a number of implications on galaxy formation, cosmic star formation history, and the observations of quasar absorption lines. In the Appendix, we derive analytical formulae for the photoionization coefficients and heating rates, which incorporate the frequency/direction-dependent transfer of external photons.
- American Astronomical Societyの論文
- 2000-02-01
American Astronomical Society | 論文
- Compositional changes in RNA, DNA and proteins for bacterial adaptation to higher and lower temperatures
- Quasar absorption lines with a nonzero cosmological constant
- The Quiescent Counterpart of the Soft Gamma-Ray Repeater SGR 0526-66
- Nonequilibrium Ionization States of Gamma-Ray Burst Environments
- Formation of subgalactic clouds under ultraviolet background radiation