Use of the method of diatomics-in-molecules in fitting ab initio potential surfaces:the system HeH+2

## 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.

The earlier developed diatomics-in-molecules DIM model structure for ammonia is used to design a model potential energy surface describing the hydrogen ãbstraction from H᎐NH in the A state. The adequate model representation of the 2 dissociation process serves to illustrate that even a DIM model of

The NeH potentiaI energy surface has been examined by ab initio molncuiar orbital theory usin8 the 6-3 lG\*\* basis set with correlation enem ev&ated by MQIIer-Plesset perturbation theory to fourth order. The AE for N2H + N2 + H is -14.4 kcal mol-' and the barrier to dissociation is 10.5 kcal mol-r

The suggestion is made that the storage of long lists of two-election repulsion integrals in the LCAO SCF MO merhod could be avoided if such integrals were evaluated at each SCF cycle and an initial set of eigcnvectors were available to lead to rapid convergkncc.'Rcsults are presented showing that t