Observation of enhanced rate coefficients in the H2+ + H2 → H3+ + H reaction at low collision energies

Abstract

The energy dependence of the rate coefficient of the H2+\ + H2 → H3+ + H reaction has been measured in the range of collision energies between kB· 10 K and kB· 300 mK. A clear deviation of the rate coefficient from the value expected on the basis of the classical Langevin-capture behavior has been observed at collision energies below kB· 1 K, which is attributed to the joint effects of the ion-quadrupole and Coriolis interactions in collisions involving ortho-H2 molecules in the j = 1 rotational level, which make up 75% of the population of the neutral H2 molecules in the experiments. The experimental results are compared to very recent predictions by Dashevskaya, Litvin, Nikitin and Troe (J. Chem. Phys., in press), with which they are in agreement.