Many-body theory applied to negative ions

14 August 1989

journal article
Published by IOP Publishing in Journal of Physics B: Atomic, Molecular and Optical Physics

Vol. 22 (15) , 2341-2347
https://doi.org/10.1088/0953-4075/22/15/009

Abstract

The quasiparticle orbital for the valence electron in a negative ion having one electron outside closed shells is determined from the Dyson equation. The authors replace the proper self-energy in the Dyson equation by an approximation derived from second-order many-body perturbation theory. Solving the resulting equation for the 4d¹⁰5s state of the negative palladium ion they obtain a value of 0.525 eV for the electron affinity, compared with the measured value 0.558+or-0.008 eV; for the 4s²4p state of the calcium negative ion the authors obtain an affinity 0.056 eV, compared with the measured value 0.043+or-0.007 eV; for the strontium negative ion the authors predict a 5s²5p state having an affinity 0.093 eV; and for the barium negative ion they predict a 6s²6p state with affinity 0.192 eV.

Keywords

This publication has 8 references indexed in Scilit:

Binding energies forpelectrons in negative alkaline-earth elements
Physical Review A, 1989
Many-body calculation of negative ions using the Dyson equation
Journal of Physics B: Atomic, Molecular and Optical Physics, 1988
Finite basis sets for the Dirac equation constructed fromBsplines
Physical Review A, 1988
Evidence for a stable negative ion of calcium
Physical Review Letters, 1987
Ground states of ${Ca}^{-}$ and ${Sc}^{-}$ from two theoretical points of view
Physical Review Letters, 1987
Weak-interaction effects in heavy atomic systems. II
Physical Review A, 1986
Relativistic many-body calculations in atoms and parity violation in caesium
Journal of Physics B: Atomic and Molecular Physics, 1985
Many-body calculations of the hyperfine interaction of some excited states of alkali atoms, using approximate Brueckner or natural orbitals
The European Physical Journal A, 1976