NONADIABATIC EFFECTS IN B, C AND E, F STATES OF HD Academic Article uri icon

abstract

  • This paper reports the results of a theoretical study of the nonadiabatic interactions among the B1Σu+, C1Πu, and E, F1Σg+ states of the HD molecule. The required electronic matrix elements were computed from configuration-interaction wavefunctions. The radial coupling between the B and E, F states, which involves the ∂ ∂R operator, was treated both by numerical differentiation procedures and also by transforming away the ∂ ∂R operator through use of the Hellmann-Feynman theorem. Good agreement between these two approaches was obtained. The nonadiabatic calculation yields C state Λ-doubling values in good agreement with experiment. We also present relative and absolute rotational line strengths for transitions from the ground state (VX = 0) to this trio of interacting states. Nonadiabatic effects on these line strengths are large for all three band systems. Of particular interest are the E, F ← X bands, where the dipole transitions are allowed only because of these nonadiabatic couplings. These dipole transitions have been recently observed experimentally by Dabrowski and Herzberg [Canad. J. Phys., 54, 525 (1976)]. © 1977.

published proceedings

  • JOURNAL OF MOLECULAR SPECTROSCOPY

author list (cited authors)

  • ALEMARRIVERA, J. D., & FORD, A. L.

citation count

  • 14

complete list of authors

  • ALEMARRIVERA, JD||FORD, AL

publication date

  • September 1977