Fourth-order many-body perturbation-theory study of the electron-correlation contribution to polarizabilities of Ne
- 1 February 1986
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review A
- Vol. 33 (2), 814-823
- https://doi.org/10.1103/physreva.33.814
Abstract
Different electric polarizabilities of Ne are calculated by using the complete fourth-order many-body perturbation-theory (MBPT) method and a partly optimized set of Gaussian-type orbital and contracted Gaussian-type orbital basis functions. The results obtained by the MBPT method (dipole polarizability α=2.712 a.u., dipole hyperpolarizability γ=104.6 a.u., quadrupole polarizability C=3.85 a.u., dipole-quadrupole polarizability B=-17.75 a.u.) are considered as the best currently available theoretical estimates. The importance of the electron-correlation contribution is demonstrated by the comparison with the corresponding self-consistent-field Hartree-Fock results (α=2.374 a.u., γ=63.9 a.u., C=3.20 a.u., B=-12.75 a.u.).Keywords
This publication has 62 references indexed in Scilit:
- Geometrical derivatives of dipole moments and polarizabilitiesInternational Journal of Quantum Chemistry, 1984
- Perturbation theory of the electron correlation effects for atomic and molecular properties. V. Quadrupole polarizability of NePhysical Review A, 1983
- Correlation effects in externally perturbed many‐electron systemsInternational Journal of Quantum Chemistry, 1983
- Complete active space (CAS) SCF and externally contracted multireference CI studies of atomic and molecular properties. Static dipole polarizabilities of F, F−, and NeThe Journal of Chemical Physics, 1982
- Many-body perturbation theory of moleculesPublished by Royal Society of Chemistry (RSC) ,1981
- Comments on the exclusion‐principle‐violating diagrams cancellation in correlations energy calculation by many‐body Rayleigh–Schrödinger perturbation theoryInternational Journal of Quantum Chemistry, 1980
- Finite perturbation calculations for the static dipole polarizabilities of the first-row atomsPhysical Review A, 1976
- Coupled hartree–fock calculation of static and shielding factors for open shell atomic systemsInternational Journal of Quantum Chemistry, 1975
- Neon polarizability and C (6) coefficient from oscillator strength distributionThe Journal of Chemical Physics, 1973
- Higher Polarizability of the Helium AtomThe Journal of Chemical Physics, 1966