Physics – Chemical Physics
Scientific paper
2009-02-11
Phys. Rev. A, 79, 012713 (2009)
Physics
Chemical Physics
Scientific paper
The mutual neutralization of H^+ and H^- ions at low collision energies is studied by means of a molecular close-coupling approach. All degrees of freedom are treated at the full quantum level taking into account also the identity of the nuclei. The relevant ^1Sigma_g,u^+ electronic states and their associated nonadiabatic radial couplings are calculated for internuclear distances between 0.5 and 50 a_0. Following a transformation into a strictly diabatic basis, these quantities enter into a set of coupled equations for the motion of the nuclei. Numerical solution of these equations allows the cross sections for scattering into the H(1)+H^*(n), n=1,2,3 channels to be calculated. In the present paper, results are reported for the collision energy region 0.001 to 100 eV, with special emphasis on the important energy region below 10 eV. The low temperature rate coefficient is obtained from a parametrization of the calculated neutralization cross section and is estimated to be valid in the range 10 to 10 000 K.
Elander Nils
Larson Asa
Stenrup Michael
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