Theoretical picture of the dynamics of the autoionization event in He(23S)H2 Penning ionization: collision energy dependence

A theoretical picture of the dynamics of the autoionization event He(23S)-D2(v " = 0) ~ [He...D~-(v')] + e-is obtained for a collision energy ranging from 10 to 150 meV (average --51 meV). The treatment of the dynamics consists of 2D classical trajectory calculations based on static characteristics

Vibrational population factors for the nascent Penning ions HD+(v'N ... He) and energy of the corresponding Penning electrons are calculated for the ionization event He(2'S)-HD( V " = 0) -+ [He ... HD+(v')] + etaking place at a range of the He\*-HD separations and orientations accessible by the syst

## Potcntulenergysurfxesnnd thcnutororuzattonwrdthforthcPenrung1oluzationtr~rllonHe(Z~S)+H~~He+H2+ +ehave been cakulalcd usmg the DIM method. The surfxcs cornpam fwounbly wtb the eustmg ab UUIIO cakul~lrons, and the approuuncltton to the nutolonlzation wdth appcx to be rcclsonlblc.

High-resolution, angular-dependent electron spectrometric studies and ab initio quantum mechanical calculations ofthe simple Penning lonlzation systems He(2 'S, 2 'S)+Li(l'S) are presented, demonstrating the Importance of electron angular distribution effects on the spectra of attractive Penning ion