Time-dependent H2 formation and protonation in diffuse clouds

Free access article

Issue		A&A Volume 461, Number 1, January I 2007


Page(s)		205 - 214
Section		Interstellar and circumstellar matter
DOI		http://dx.doi.org/10.1051/0004-6361:20065070

A&A 461, 205-214 (2007)
DOI: 10.1051/0004-6361:20065070

Time-dependent H₂ formation and protonation in diffuse clouds

H. S. Liszt

National Radio Astronomy Observatory, 520 Edgemont Road, 22903-2475 Charlottesville, VA, USA
e-mail: hliszt@nrao.edu

(Received 22 February 2006 / Accepted 14 September 2006)

Abstract
Aims.To demonstrate the time-approach to equilibrium of H₂-formation and protonation in models of diffuse or H I interstellar gas clouds previously published by the author.
Methods.The microscopic equations of H₂-formation and protonation are integrated numerically over time in such a manner that the overall structures evolve self-consistently under benign conditions.
Results.The equilibrium H₂ formation timescale in an H I cloud with N(H) $\approx 4\times10^{20}~{{\rm cm}^{-2}}$ is $1{-}3\times10^7$ yr, nearly independent of the assumed density or H₂ formation rate on grains, etc. Attempts to speed up the evolution of the H₂-fraction would require densities well beyond the range usually considered typical of diffuse gas. The calculations suggest that, under benign, quiescent conditions, H₂ in the diffuse ISM formation of H₂ is favored in larger regions having moderate density, consistent with the rather high mean kinetic temperatures measured in H₂, 70-80 K. Formation of H₃⁺ is essentially complete when H₂-formation equilibrates but the final abundance of H₃⁺ appears more nearly at the very last instant. Chemistry in a weakly-molecular gas has particular properties so that the abundance patterns change appreciably as gas becomes more fully molecular, either in model sequences or with time in a single model. One manifestation of this is that the predicted abundance of H₃⁺ is much more weakly dependent on the cosmic-ray ionization rate when n(H₂)/n(H $) \la 0.05$ . In general, high abundances of H₃⁺ do not enhance the abundances of other species (e.g. HCO⁺) but late-time OH formation proceeds most vigourously in more diffuse regions having modest density, extinction and H₂ fraction and somewhat higher fractional ionization, suggesting that atypically high OH/H₂ abundance ratios might be found optically in diffuse clouds having modest extinction.

Key words: ISM: molecules -- ISM: atoms -- ISM: clouds

What is OpenURL?

The OpenURL standard is a protocol for transmission of metadata describing the resource that you wish to access. An OpenURL link contains article metadata and directs it to the OpenURL server of your choice. The OpenURL server can provide access to the resource and also offer complementary services (specific search engine, export of references...). The OpenURL link can be generated by different means.

If your librarian has set up your subscription with an OpenURL resolver, OpenURL links appear automatically on the abstract pages.
You can define your own OpenURL resolver with your EDPS Account. In this case your choice will be given priority over that of your library.
You can use an add-on for your browser (Firefox or I.E.) to display OpenURL links on a page (see http://www.openly.com/openurlref/). You should disable this module if you wish to use the OpenURL server that you or your library have defined.