Interaction Potential between Ground State Helium Atom and the B 1Σu+ State of the Hydrogen Molecule

## Abstract The energy of the hydrogen molecule in the __B__ ^1^Σ state, for internuclear separations 12 ≦ __R__ ≦ 20 a.u., has been computed using an 80‐term variational wave function depending explicitly on the interelectronic distance. The same type of wave function has been employed in the pert

Potetitial energy curYe for the excited B "YE+ state of the Ily&o~en mdlxulc WBS computed for intemuc1cv distances u 1.2 -G R -z 5.0 nu.-l-he dissocirtion-crgescv~uatedforH\*,HD aryd D~~csbovctheexperimen~resultsby 0.9.3.1xnd 27.2 qn-', respectively. The wavefunctionsobtained are employed to conputc

Supem~olecule calculations at the SCF level nre reported for the excited B 1 Xu state of the complex Hz(He)e for rqwlx and random&d environments of the hydrogen molecule. Whilst marked blue-shifts are observed in the simulated mnrris environmenf,mndomisation offhe surrounding h&urn atoms causes the

## Abstract Calculations of the electronic energies and wave‐functions for the hydrogen molecule __D__'∏~__u__~ and __B__″Σ states have been carried out at the estimated curve crossing distance of 1,5307 atomic units. The results show good agreement with previous calculations.