Predissociation dynamics of negative ion resonances of H2 near 12 eV and 14.5 eV using velocity slice imaging technique

Abstract

Dissociative electron attachment (DEA) is an important tool for investigating negative ion resonances. We have studied the negative ion resonances of H2 at 10 eV and 14 eV using the improved velocity slice imaging technique. We obtained modulations in the kinetic energy spectrum of H- ions obtained at 12 eV and 14.5 eV electron energy, consistent with the earlier reported vibrational state contributions from the higher lying bound resonances. We show that structures obtained at 12 eV are due to predissociation of the C2g+ resonance consistent with the current understanding. However, based on our angular distribution measurements, we propose that the structures obtained at 14.4 eV are due to predissociation of bound resonance of 2g+ symmetry as against δg that was proposed earlier. We also report that the bound 2g+ resonance contributes to the observed inversion symmetry breaking near 14 eV.