On effective molecular electronic charge densities and vibrational potential energy functions

The effect of the internal vibrational motion on the electron difference density has been studied for the hydrogen molecular ion H:. The effect is quite small although there are differences between the static and dynamic densities near the nuclei.

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The similarities among the molecular contours of three scalar fields, viz. electron density (ED), electrostatic potential (ESP) and bare nuclear potential (BNP) have been investigated. The topological resemblance between ESP and ED contour diagrams (as prompted by the Thomas-Fermi model)is more pron

The equilibrium structure, the potential energy surface and the infrared harmonic frequencies are determined by using two generalized gradient approximation density functional methods for methylamine. The results are compared to those of a second-order Moller-Plesset and coupled cluster calculations

A program for the calculation of one-electron molecular energy and wave function for large inter nuclear distance R is reported. Asymptotic expansion of the energy and the wave function in inverse powers of R is obtained by solving the recurrence formula.