MCSCF calculations of the properties of hydrogen fluoride
- 1 June 1978
- journal article
- research article
- Published by Taylor & Francis in Molecular Physics
- Vol. 35 (6) , 1765-1775
- https://doi.org/10.1080/00268977800101331
Abstract
Various properties of hydrogen fluoride are calculated as functions of internuclear separation using an MCSCF wavefunction. The properties considered are the dipole, quadrupole and octopole moments, the diamagnetic contributions to the magnetizability and the nuclear magnetic shielding, the electric field gradients at the nuclei, the polarizability and the A tensor. Vibrational corrections to these properties have been included. Good agreement with the experimental results is found for the whole range of properties.Keywords
This publication has 31 references indexed in Scilit:
- PNO-CI and PNO-CEPA studies of electron correlation effectsMolecular Physics, 1976
- Multiconfiguration self-consistent-field calculation of the dipole moment function and potential curve of NO(X2Π)The Journal of Chemical Physics, 1975
- Study of the ground state potential curve and dipole moment of OH by the method of optimized valence configurationsThe Journal of Chemical Physics, 1974
- Ab initio study of the NH radicalThe Journal of Chemical Physics, 1974
- Study of the theoretical dipole moment function and infrared transition matrix for the X 1Σ+ state of the HF moleculeThe Journal of Chemical Physics, 1974
- New Theoretical Method for the Accurate Calculation of Expectation Values on Functions of Internuclear Separation in 1Σ-State Diatomic MoleculesThe Journal of Chemical Physics, 1968
- Deuteron magnetic resonance studies. Part 1.—Calculated deuteron quadrupole coupling constants for deuterium fluoride and chlorideTransactions of the Faraday Society, 1968
- Temperature-Dependent Chemical Shifts in the NMR Spectra of GasesThe Journal of Chemical Physics, 1962
- The Band Spectra of the Hydrides of Lithium. Part III. Potential Curves and Isotope RelationsPhysical Review B, 1936
- The Energy Levels of a Rotating VibratorPhysical Review B, 1932