Atomic Structure Theory: Lectures on Atomic Physics

Front Cover
Springer Science & Business Media, Feb 5, 2007 - Science - 312 pages

Atomic Structure Theory is a textbook for students with a background in quantum mechanics. The text is designed to give hands-on experience with atomic structure calculations. Material covered includes angular momentum methods, the central field Schrödinger and Dirac equations, Hartree-Fock and Dirac-Hartree-Fock equations, multiplet structure, hyperfine structure, the isotope shift, dipole and multipole transitions, basic many-body perturbation theory, configuration interaction, and correlation corrections to matrix elements. Numerical methods for solving the Schrödinger and Dirac eigenvalue problems and the (Dirac)-Hartree-Fock equations are given as well. B-spline basis sets are used to carry out sums arising in higher-order many-body calculations. Illustrative problems are provided, together with solutions. FORTRAN programs implementing the numerical methods in the text are included.

 

Selected pages

Contents

Angular Momentum
1
CentralField Schrödinger Equation
29
SelfConsistent Fields
71
Atomic Multiplets
107
6
112
Hyperfine Interaction Isotope Shift 137
136
Radiative Transitions
157
7
185
Breit Interaction
221
MBPT for Matrix Elements
237
Problems
260
References
303
223
307
Copyright

Other editions - View all

Atomic Structure Theory: Lectures on Atomic Physics
Walter R. Johnson
Limited preview - 2007
Atomic Structure Theory: Lectures on Atomic Physics
Walter R. Johnson
No preview available - 2009
Atomic Structure Theory: Lectures on Atomic Physics
Walter R. Johnson
No preview available - 2010

Common terms and phrases

6-j symbol amplitude angular momentum atoms B-splines Breit interaction calculations Clebsch-Gordan coefficients closed-shell components configuration contribution core correlation corrections Coulomb decay dipole Dirac equation eigenfunctions eigenstates eigenvalue electric-dipole evaluate excited expression fine-structure first-order energy follows formula given ground-state Hamiltonian Hartree-Fock helium heliumlike HF equations HF potential hyperfine constants identity ijkl integration isotope shift iteration jimi L₂ lama leads levels lowest-order LS coupling m₁ magnetic quantum mass shift MBPT mnab nonrelativistic normalization nuclear obtain one-electron orthogonal Pa(r Pauli approximation perturbation theory photon radial Dirac radial functions radial Schrödinger equation radial wave function reduced matrix element relativistic resulting Schrödinger equation single-particle singlet Slater determinant solution spherical harmonics substates Table tensor operator third-order transition triplet tRPA two-electron two-particle operators valence electron values wave function wavelength μα Льть

About the author (2007)

Frank M. Freimann Professor of Physics, University of Notre Dame, 1992-present

Professor of Physics, University of Notre Dame, 1958-present

Chairman: Department of Physics, University of Notre Dame, 1982-1985

Chairperson: Division of Atomic, Molecular, and Optical Physics, American Physical Society, 1988-1989.

Alexander von Humboldt Senior U.S. Scientist Award, University of Frankfurt, 1982-1983;

Technical University of Dresden1994; Technical University of Dresden 2001.

Gordon Godfrey Fellow, University of New South Wales, Sydney, 2000, 2005

Bibliographic information

TitleAtomic Structure Theory: Lectures on Atomic Physics
AuthorWalter R. Johnson
Editionillustrated
PublisherSpringer Science & Business Media, 2007
ISBN3540680101, 9783540680109
Length312 pages
Subjects ›  › 

Science / Chemistry / Physical & Theoretical
Science / Physics / Atomic & Molecular
Science / Physics / Mathematical & Computational
Science / Physics / Nuclear
Science / Physics / Quantum Theory
  
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