Insight into the prospective evaluation of third-order interelectronic corrections on Li-like ions

Abstract

Relying on the redefined vacuum state approach, and based on one-particle three-loop Feynman diagrams, partial third-order interelectronic corrections to the valence electron energy shift are investigated in Li-like ions. The idea is to begin with simple one-particle gauge-invariant subsets composed of Feynman diagrams and to keep track of them in the many-electron frame, which is a strong asset of the formalism. An independent derivation is undertaken with the help of perturbation theory to cross-check the expressions. This two-method scheme helps to resolve how the different terms are distributed among three- and four-electron contributions. Furthermore, it provides a tool to overcome the difficulties related to the derivation of reducible terms, which are tricky to deal with. These two independent derivations and the comparison of the resulting expressions are fully consistent, except for two expressions. In these cases, the discrepancy can be traced back to a different topology of the poles.

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