Astronomy and Astrophysics – Astronomy
Scientific paper
Jun 1999
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1999mnras.306...22t&link_type=abstract
Monthly Notices of the Royal Astronomical Society, Volume 306, Issue 1, pp. 22-30.
Astronomy and Astrophysics
Astronomy
29
Atomic Processes, Molecular Processes, Ism: Atoms, Dust, Extinction, Ism: Molecules
Scientific paper
The fundamental processes of H_2 formation via H + H -> H_2 on the surfaces of icy mantles of interstellar dust have been investigated consistently within a single model based on a classical molecular dynamics (MD) computational simulation. As a model surface for icy mantles of dust grains, an amorphous water ice slab was generated at 10 and 70 K under periodic boundary conditions. The first and second incident H atoms were then `thrown' on to the model surface. Two MD procedures were employed: (i) the H_2)O molecules were treated as rigid (hard ice model); (ii) the intramolecular vibrational modes of H_2O were included (soft ice model). The amorphous water ice slabs produced by our MD simulations are found to be good models for the surfaces of icy mantles of dust grains. For the various fundamental processes of H_2 formation on the dust surface, the following results emerge. (1) For the sticking of an H atom on to the surface, a sticking probability that depends on the temperature of the incident H atom is obtained. (2) For the diffusion of an H atom on the surface, it is found that the first incident H atom diffuses via the thermal hopping mechanism at the first stage, and then it is always trapped in one of the stable sites on the amorphous ice. The migration length and time have been calculated for the mobility of the incident H atom before it is trapped. The time-scales of thermal diffusion and desorption of H atoms after trapping have also been estimated. (3) For the reaction of two H atoms on the surface, the following three reaction patterns are observed: (i) H_2 is produced via the Langmuir-Hinshelwood mechanism; (ii) H_2 is produced via the Eley-Rideal mechanism; (iii) the almost elastic collision of two H atoms occurs without H_2 being formed. The effective reactive cross-section is estimated at about 40 Å^2. The reaction probabilities are found to be near unity. (4) For the ejection of H_2 from the ice surface, the product H_2 is subsequently ejected after the reaction process, using part of the excess energy derived from the H_2 formation. The average lifetime of ejection is about 400-600 fs. Most of the ejected H_2 molecules are found to be in vibrationally and rotationally excited states.
Masuda Koichi
Nagaoka Masataka
Takahashi Junko
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