Abstract

The rate constant (kD) for the thermal dissociation of molecular parahydrogen by collisions with helium at kinetic temperatures of 2000-10,000 K is determined for the entire range of densities appropriate to interstellar molecular clouds. Included in a solution of the master equation for the dissociation reaction are collisional transitions among the rotation-vibration levels, collision induced dissociation out of all levels, and infrared quadrupole emission. The rate constant decreases strongly over the density range of 1 million-10,000/cu cm due to the competition between radiative and collisional processes. At low densities, kD approaches a constant value corresponding to direct collisional dissociation out of the (v = 0, J = 0) level. It is noted that the population distribution among the rotation-vibration levels can show large deviations from a Boltzmann distribution and that, under certain circumstances, there are even population inversions. 74 references.

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