Near dissociation states for H2+-He on MRCI and FCI potential energy surfaces

Abstract

A new analytical potential energy surface (PES) has been constructed for H2+-He using a reproducing kernel Hilbert space (RKHS) representation from an extensive number of ab initio energies computed at the multi-reference and full configuration interaction level of theory. For the MRCI PES the long-range interaction region of the PES is described by analytical functions and is connected smoothly to the short-range interaction region, represented as a RKHS. All ro-vibrational states for the ground electronic state of H2+-He are calculated using two different methods to determine quantum bound states. Comparing transition frequencies for the near-dissociation states for ortho- and para-H2+-He allows assignment of the 15.2 GHz line to a J=2 e/f parity doublet of ortho-H2+-He whereas the experimentally determined 21.8 GHz line is only consistent with a (J=0) → (J=1) e/e transition in para-H2+-He.