Structure and dynamics of HD+ in the vicinity of the H+ + D and D+ + H dissociation thresholds: Feshbach resonances and the role of g/u-symmetry breaking

Abstract

We report on the measurement and analysis of photoionisation, mass-analysed-threshold-ionisation and pulsed-field-ionisation zero-kinetic-energy photoelectron spectra of HD in the vicinity of the dissociative-ionisation thresholds H+ + D(1s) + e- and H(1s) + D+ + e-. The spectra were recorded via the v=11-13 vibrational levels of the H and B outer wells of the H H~1g+ and B B~1u+ states and provide information on the weakly bound levels of the X+ 2g+ ground state of HD+ with vibrational quantum numbers v+=16-21 and rotational angular-momentum quantum numbers N+=0-10. The spectra also reveal for the first time shape and Feshbach resonances of HD+ located energetically above the H+ + D(1s) dissociation limit. The structure and dissociation dynamics of the H and B states of HD and of the X+ 2g+ and A+ 2u+ states of HD+ near the dissociation thresholds are strongly influenced by the g/u-symmetry breaking caused by the nuclear-mass asymmetry.