Kinetic energy in terms of electron density for atomic s and p shells in a bare Coulomb field

A long-term aim in density functional theory is to obtain the kinetic Ž . Ž . Ž . energy density t r in terms of the ground-state electron density r . Here, t r is Ž . written explicitly in terms of r for an arbitrary number N N of closed shells in a bare Ž . Coulomb field. In the limit as N N ª ϱ,

One-and two-electron bound states in screened and bare Coulomb potentials are calculated by adopting a discretized multiconfiguration generator Ž . coordinate GC method which leads to an iterative nonorthogonal configuration interaction procedure with the optimization of GCs. The GCs are optimized e

An effective Hamiltonian for calculating rotational energy levels of an open-shell diatomic molecule, in a 2Sϩ1 ⌺ electronic state, weakly bonded to a closed-shell partner was presented (W. M. Fawzy, J. Mol. Spectrosc. 191, 68 -80 (1998)). The Hamiltonian was given as H ϭ H ev ϩ H rot ϩ H sr ϩ H ss

A detailed study of the type and extent of electronic reorganization created by macroscopic solvation of a prototypical carbonyl solute is carried out within the framework of the semiempirical multiconfiguration self-consistent reaction-field model. The solvation causes additional polarization of th