2006MNRAS.365..801P -
Mon. Not. R. Astron. Soc., 365, 801-806 (2006/January-3)
Molecular hydrogen formation on porous dust grains.
PERETS H.B. and BIHAM O.
Abstract (from CDS):
Recent laboratory experiments on interstellar dust analogues have shown that H2formation on dust-grain surfaces is efficient in a range of grain temperatures below 20 K. These results indicate that surface processes may account for the observed H2abundance in cold diffuse and dense clouds. However, high abundances of H2have also been observed in warmer clouds, including photon-dominated regions (PDRs), where grain temperatures may reach 50 K, making the surface processes extremely inefficient. It was suggested that this apparent discrepancy can be resolved by chemisorption sites. However, recent experiments indicate that chemisorption processes may not be efficient at PDR temperatures. Here we consider the effect of grain porosity on H2 formation, and analyse it using a rate-equation model. It is found that porosity extends the efficiency of the recombination process to higher temperatures. This is because H atoms that desorb from the internal surfaces of the pores may re-adsorb many times and thus stay longer on the surface. However, this porosity-driven extension may enable efficient H2formation in PDRs only if porosity also contributes to significant cooling of the grains, compared to non-porous grains.
Abstract Copyright:
2005 The Authors. Journal compilation © 2005 RAS
Journal keyword(s):
molecular processes - ISM: molecules
Simbad objects:
7
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