An alternative calculation of the vibrational potential energy distribution

WC have calculated 64 points on the ground electronic state potential energy surface of the silyl radical (SiHs) using the MRD CI technique. This potential surface gives an inversion barrier of 1951 cm-' and an equilibrium geometry of re = 1.480 A and ae(HSiH) = 1 1 1 .?. Using the non-rigid inverto

## Abstract A three‐dimensional potential energy surface of the electronic ground state of ZnH~2~ (${X}^1\sum \_g^ +$) molecule is constructed from more than 7500 __ab initio__ points calculated at the internally contracted multireference configuration interaction with the Davidson correction (icMR

An alternative method is proposed to analyze the electron drstniutton in molecules. Explicit formulae are given to calculate the number of electrons N(S) in a sphere wth radms S and the spherically averaged electron density PO(S) around any center for gaussan-type functions. Also the formulae for th

A series of high-level wmWed calculations of the potential energy surface for stretching vibrations of the FHF-ion has been carried out. The vibrational levels have been calculated by using the adiabatic appmch to the separation of low-(vl ) and higbfrequency (v~) modes and a flexible analytic repre

Sensitivities for the transition probability of the F + H 2 (o = 0, j = 0) ~ aF (v') -I-H reaction are calculated for total angular momentum J = 0 to determine how the T5A potential energy surface (PES) can be modified to correct its theoretical product vibrational branching ratio. Several modificat