Radiative association of C(3P) and H+: Triplet states

Abstract

The radiative association of C(3P) and H+ is investigated by calculating cross sections for photon emission into bound ro-vibrational states of CH+ from the vibrational continua of initial triplet d\,3 or b\,3- states. Potential energy curves and transition dipole moments are calculated using multi-reference configuration interaction (MRCI) methods with AV6Z basis sets. The cross sections are evaluated using quantum-mechanical methods and rate coefficients are calculated. The rate coefficients are about 100 times larger than those for radiative association of C+(2Po) and H from the A\,1 state. We also confirm that the formation of CH+ by radiative association of C+(2Po) and H via the triplet c\,3+ state is a minor process.