An approximate method of computing electronic characteristics of large molecular systems in the ground electronic state

## Abstract In this paper, finite dimensional approximations for the electronic ground state solution of a molecular system are studied in the Thomas–Fermi–von Weizsäcker type setting. The convergence of the finite dimensional approximations obtained by a Galerkin discretization of the nonlinear ei

A near Hartree-Fock wavefunction for HBS has been used to compute various molecular properties at the experimental geometry. These are compared with the available specrroscopic data on the molecule.

## Abstract The reduction of the electronic Schrodinger equation or its calculating algorithm from 4__N__‐dimensions to a (nonlinear, approximate) density functional of three spatial dimension one‐electron density for an __N__‐electron system, which is tractable in the practice, is a long desired g

The feasibility of determining nuclear quadrupole hyperfine splittings in the ground electronic state of a polyatomic molecule using a double resonance quantum beat method has been demonstrated. Pyrimidine molecules were coherently excited into single rotational states of the So 201 ( 13a ~) vibrati

is demonstmted that in the molecular electrondonor-acceptor system of sym.tetracyanobenzene with pus-xylene, both ground-state and stable cxcitedkate complexes can be formed. Measurements of the decay times of fIuorcsocnce and investigation of the influence of solvent polarity on the fluorescence sp