The electronic structure of the calcium monohalides. A ligand field approach

1 June 1985

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

Vol. 82 (11) , 5023-5034
https://doi.org/10.1063/1.448676

Abstract

The electronic structure of the calcium monohalides is addressed using a ligand field model which approximates the halide as a polarizable negative charge perturbing the one electron valence structure of the Ca⁺ ion. A simple, zero‐free‐parameter model is shown to predict accurately electronic energies, transition moments, permanent dipole moments, and several other molecular constants that have been experimentally determined. The molecular properties and electronic wave functions are interpreted in terms of the polarization (s/p/d/f mixing) and radial expansion (nl/n+1l mixing) of the low lying, free ion, basis functions caused by the electric field of the ligand.

Keywords

This publication has 46 references indexed in Scilit:

Dipole moments and potential energies of the alkaline earth monohalides from an ionic model
The Journal of Chemical Physics, 1984
Hyperfine structure in the $X {}^{2}Σ$ state of CaCl measured with microwave-optical polarization spectroscopy
Physical Review A, 1983
Determination of dipole and quadrupole hyperfine structure in the excited B₂Σ state of Ca⁷⁹Br and Ca⁸¹Br
Canadian Journal of Physics, 1981
Polarization Effects in Gaseous Calcium Chloride
Physica Scripta, 1981
Laser Spectroscopic Investigations of CaCl
Physica Scripta, 1980
Laser Spectroscopic Investigations of CaCl. II. Rotational Analysis of the B²Σ- X²Σ Transitions
Physica Scripta, 1980
Model Calculations of the Thermochemical Properties of Gaseous Metal Halides
Journal of the Electrochemical Society, 1979
Dissociation energies of CaBr, SrBr, BaBr, and BaCl from mass spectrometric studies of gaseous equilibria
The Journal of Chemical Physics, 1977
Dissociation Energies and Chemical Bonding in the Alkaline-Earth Chlorides from Mass Spectrometric Studies
The Journal of Chemical Physics, 1970
Transition Integrals for Si IV and CaII
Mathematical Proceedings of the Cambridge Philosophical Society, 1962