Retardation and multipole corrections to blackbody radiation shifts in Rydberg states become dominant above a characteristic temperature of order α mc² / (3 k_B n²), with quadrupole and diamagnetic shifts of similar magnitude.
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physics.atom-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Core-polarization-corrected Dirac-Fock calculations within the local Dirac-Hartree-Fock potential yield polarizabilities, Stark shifts, and Bethe logarithms for alkali atoms that are compared to existing literature.
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Multipole blackbody radiation shift in Rydberg atoms
Retardation and multipole corrections to blackbody radiation shifts in Rydberg states become dominant above a characteristic temperature of order α mc² / (3 k_B n²), with quadrupole and diamagnetic shifts of similar magnitude.
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Applicability of the Dirac-Fock method combined with Core Polarization in calculations of alkali atoms
Core-polarization-corrected Dirac-Fock calculations within the local Dirac-Hartree-Fock potential yield polarizabilities, Stark shifts, and Bethe logarithms for alkali atoms that are compared to existing literature.