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Safronova Abstract

Safronova Abstract

Blackbody Radiation Shifts, Quadrupole Moments, and Magic Wavelengths

Marianna Safronova University of Delaware

Abstract

A study of the black-body radiation shifts in various systems of interest to the development of optical frequency standards is carried out. The calculations for monovalent systems, such as Ca+ and Sr+, are carried out using the relativistic all-order method where all single and double excitations of the Dirac-Fock wave function are included to all orders of perturbation theory. This method was demonstrated to yield accurate predictions for various atomic properties of monovalent atoms. Precision calculations for atoms with more than one valence electron require an accurate treatment of the very strong valence-valence correlation; a perturbative approach leads to significant difficulties. Our calculations of BBR shifts for divalent systems such as Sr are carried out using a new approach that combines the relativistic all-order method and the configuration-interaction method. Application of this method to the study fundamental symmetries is also discussed. Other atomic properties of monovalent and divalent systems of interest to atomic clock research are evaluated as well.

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