Astronomy and Astrophysics – Astronomy
Scientific paper
Nov 2006
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2006rspta.364.3049l&link_type=abstract
Royal Society of London Transactions Series A, vol. 364, Issue 1848, p.3049-3062
Astronomy and Astrophysics
Astronomy
4
Interstellar Molecules, Astrochemistry, Interstellar Clouds
Scientific paper
Three forms of solely hydrogen-bearing molecules—H2, HD and H3+—are observed in diffuse or optically transparent interstellar clouds. Although no comprehensive theory exists for the diffuse interstellar medium or its chemistry, the abundances of these species can generally be accommodated locally within the existing static equilibrium frameworks for heating/cooling, H2-formation on large grains, etc. with one modification demanded equally by observations of HD and H3+, i.e. a pervasive low-level source of H and H2 ionization ca 10 times faster than the usual cosmic ray ionization rate ζH≈10-17s-1 per free H-atom.We discuss this situation with reference to observation and time-dependent modelling of H2 and H3+ formation. While not wishing to appear ungrateful for the success of what are very simplistic notions of the interstellar medium, we point out several reasons not to feel smug. The equilibrium conditions which foster high H2 and H3+ abundances are very slow to appear and these same simple ideas of static equilibrium cannot explain any, but a few, of the simplest of the trace species, which are ubiquitously embedded in H2-bearing diffuse gases.
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