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AbstractAbstract
[en] The use of the many-body perturbation theory for atomic calculations are reviewed. The major emphasis is on the use of the linked-cluster many-body perturbation theory derived by Brueckner and Goldstone. Applications of many-body theory to calculations of hyperfine structure are examined. Auger rates and parity violation are discussed. Photoionization is reviewed, and the authors show how many-body perturbation theory can be applied to problems ranging from structural properties such as correlation energies and hyperfine structure to dynamical properties such as transitions induced by weak neutral currents and photoionization cross sections
Primary Subject
Source
Kleinpoppen, H.; Briggs, J.S.; Lutz, H.O; p. 239-268; 1985; p. 239-268; Plenum Press; New York, NY (USA); NATO advanced study institute on fundamental and technological aspects of Organo-F-Element chemistry; Acquafredda di Maratea (Italy); 10-21 Sep 1984
Record Type
Book
Literature Type
Conference
Country of publication
ATOMIC MODELS, ELECTRON CORRELATION, ENERGY-LEVEL TRANSITIONS, GOLDSTONE DIAGRAMS, HAMILTONIANS, HARTREE-FOCK METHOD, HYPERFINE STRUCTURE, MANY-BODY PROBLEM, P INVARIANCE, PARTICLE INTERACTIONS, PERTURBATION THEORY, PHOTOIONIZATION, REVIEWS, SCHROEDINGER EQUATION, SINGLE-PARTICLE MODEL, WEAK NEUTRAL CURRENTS
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