中文

Molecules in a gravitational collapse

天体物理学 2007-05-23 v1

摘要

The study of primordial chemistry of molecules adresses a number of interesting questions pertaining to the thermal balance of collapsing molecular protoclouds. In numerous astrophysical cases molecular cooling and heating influence dynamical evolution of the medium. The existence of a significant abundance of molecules can be crucial on the dynamical evolution of collapsing objects. Because the cloud temperature increases with contraction, a cooling mechanism can be important for the structure formation, by lowering pressure opposing gravity, i.e. by allowing continued collapse of Jeans unstable protoclouds. This is particularly true for the first generation of objects. It has been suggested that a finite amount of molecules such as H2H_2, HDHD and LiHLiH can be formed immediately after the recombination of cosmological hydrogen (Lepp and Shull 1984, Puy et al 1993). The cosmological fractional abundance HD/H2HD/H_2 is small. Nevertheless, the presence of a non-zero permanent electric dipole moment makes HDHD a potentially more important coolant than H2H_2 at modest temperatures, although HDHD is much less abundant than H2H_2. Recently Puy and Signore (1997) showed that during the early stages of gravitational collapse, for some collapsing masses, HDHD molecules were the main cooling agent when the collapsing protostructure had a temperature of about 200 Kelvins. Thus, we analytically estimate the molecular cooling during the collapse of protoclouds Then, the possibility of thermal instability during the early phase of gravitational collapse is discussed.

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引用

@article{arxiv.astro-ph/9812411,
  title  = {Molecules in a gravitational collapse},
  author = {D. Puy and M. Signore},
  journal= {arXiv preprint arXiv:astro-ph/9812411},
  year   = {2007}
}

备注

5 pages, 1 figure