Relativistic and diamagnetic corrections of a atomic g values
Ingvar P. K. Lindgren, Lawrence Livermore Laboratory, University of California, Berkeley. Lawrence Radiation Laboratory
University of California Radiation Laboratory, 1960 - 31 pages
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2n+l Abragam approximations ATOMIC g VALUES atomic units Bohr magneton Breit-Margenau correction Breit-Margenau formula California May 9 called the Breit-Margenau classical Zeeman energy classical Zeeman operator closed shells Condon and Shortley configuration diagonal element diamagnetic correction diamagnetic effects Dirac equation electron density electrons outside closed elements of Eq equivalent electrons experimental g value experimental spin-orbit coupling field is uniform fine-structure constant g-value correction Hamiltonian Hartree Hydrogenic Modified heavy atoms Hydrogenic Modified hydrogenic hydrogenic wave function interaction kinetic energy Lande value Lawrence Radiation Laboratory Legendre polynomials Lindgren Lawrence Radiation magnetic field matrix elements Modified hydrogenic wave notation of Condon obtained off-diagonal elements operator 9 Orbit-Orbit correction parameter radial integrals Radial wave functions rare earth relativistic and diamagnetic Russell-Saunders SCF calculations SCF wave functions Schwinger correction self-consistent fields spherical coordinate spherically symmetric term of Eq Thomas-Fermi potential thulium Vleck wave function gives Zeeman effect