English

Compact variational wave functions for bound states in three-electron atomic systems

Atomic Physics 2011-01-11 v2 Quantum Physics

Abstract

The variational procedure to construct compact and accurate wave functions for three-electron atoms and ions is developed. The procedure is based on the use of six-dimensional gaussoids written in the relative four-body coordinates r12,r13,r23,r14,r24r_{12}, r_{13}, r_{23}, r_{14}, r_{24} and r34r_{34}. The non-linear parameters in each basis function have been optimized carefully. By using these variational wave functions we have determined the energies and other bound state properties are determined for the ground 12S1^2S-states in a number of three-electron atoms and ions. The three-electron atomic systems considered in this work include the neutral Li atom and nine positively charged lithium-like ions: Be+^+, B2+^{2+}, C3+,...^{3+}, ...Na8+^{8+} and Mg9+^{9+}. Our variational wave functions are used to determine the hyperfine structure splitting and field shifts for some lithium-like ions. The explicit formulas of the Q1Q^{-1} expansion are derived for the total energies of these three-electron systems.

Keywords

Cite

@article{arxiv.1008.2511,
  title  = {Compact variational wave functions for bound states in three-electron atomic systems},
  author = {Alexei M. Frolov and David M. Wardlaw},
  journal= {arXiv preprint arXiv:1008.2511},
  year   = {2011}
}
R2 v1 2026-06-21T16:00:56.333Z