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arxiv astro-ph/0012267 v1 pith:7IRUSQQK submitted 2000-12-12 astro-ph

Master Equation for Hydrogen Recombination on Grain Surfaces

classification astro-ph
keywords equationhydrogengrainmasterraterecombinationsurfacesatoms
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Recent experimental results on the formation of molecular hydrogen on astrophysically relevant surfaces under conditions similar to those encountered in the interstellar medium provided useful quantitative information about these processes. Rate equation analysis of experiments on olivine and amorphous carbon surfaces provided the activation energy barriers for the diffusion and desorption processes relevant to hydrogen recombination on these surfaces. However, the suitability of rate equations for the simulation of hydrogen recombination on interstellar grains, where there might be very few atoms on a grain at any given time, has been questioned. To resolve this problem, we introduce a master equation that takes into account both the discrete nature of the H atoms and the fluctuations in the number of atoms on a grain. The hydrogen recombination rate on microscopic grains, as a function of grain size and temperature, is then calculated using the master equation. The results are compared to those obtained from the rate equations and the conditions under which the master equation is required are identified.

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