Application of Configuration Interaction to the 23S State of Helium. II

1 September 1963

journal article
research article
Published by AIP Publishing in The Journal of Chemical Physics

Vol. 39 (5) , 1183-1186
https://doi.org/10.1063/1.1734410

Abstract

The configuration interaction method is applied to the nonrelativistic 2³S state of the helium atom. It is shown, by variationally adjusting the effective charges of the angular configurations, that no radial readjustment occurs for this state. The final set of 80 configurations then gives an energy of —2.1752259 a.u., recovering 27% of the energy difference between our best previous configuration‐interaction value and the extrapolated value of Pekeris. A discussion is then given concerning the relative merit of the configuration interaction method and suggestions given for its future application to the 2³S state of the two‐electron system.

Keywords

This publication has 9 references indexed in Scilit:

Application of Configuration Interaction to the 23S State of Helium
The Journal of Chemical Physics, 1962
Importance of Angular Correlations between Atomic Electrons
Physical Review B, 1962
$1 {}^{1}S$ and $2 {}^{3}S$ States of Helium
Physical Review B, 1959
Superposition of Configurations and Natural Spin Orbitals. Applications to the He Problem
The Journal of Chemical Physics, 1959
Approximate Wave Functions for the Ground State of Helium
Physical Review B, 1958
Numerical Calculation of the Wave Functions and Energies of the $1 {}^{1}S$ and $2 {}^{3}S$ States of Helium
Physical Review B, 1958
Ground-State Wave Functions for He i and $H^{-}$ Obtained by the Superposition of Central Field Functions
Physical Review B, 1956
Natural Orbitals in the Quantum Theory of Two-Electron Systems
Physical Review B, 1956
A Variational Iteration Method for Solving Secular Equations
The Journal of Chemical Physics, 1949