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Literature DB >> 28036218

Quantum Electrodynamical Shifts in Multivalent Heavy Ions.

I I Tupitsyn^1,2, M G Kozlov^2,3, M S Safronova^4,5, V M Shabaev¹, V A Dzuba⁶.

Abstract

The quantum electrodynamics (QED) corrections are directly incorporated into the most accurate treatment of the correlation corrections for ions with complex electronic structure of interest to metrology and tests of fundamental physics. We compared the performance of four different QED potentials for various systems to access the accuracy of QED calculations and to make a prediction of highly charged ion properties urgently needed for planning future experiments. We find that all four potentials give consistent and reliable results for ions of interest. For the strongly bound electrons, the nonlocal potentials are more accurate than the local potential.

Year: 2016 PMID： 28036218 DOI： 10.1103/PhysRevLett.117.253001

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

1 in total

1. Relativistic all-order many-body calculation of energies, wavelengths, and M1 and E2 transition rates for the 3d ⁿ configurations in tungsten ions.

Authors: M S Safronova; U I Safronova; S G Porsev; M G Kozlov; Yu Ralchenko
Journal: Phys Rev A (Coll Park) Date: 2018 Impact factor: 3.140

1 in total

Quantum Electrodynamical Shifts in Multivalent Heavy Ions.

1. Relativistic all-order many-body calculation of energies, wavelengths, and M1 and E2 transition rates for the 3d n configurations in tungsten ions.

1. Relativistic all-order many-body calculation of energies, wavelengths, and M1 and E2 transition rates for the 3d ⁿ configurations in tungsten ions.