Theoretical foundations of electron spin resonance /

Theoretical Foundations of Electron Spin Resonance deals with the theoretical approach to electron paramagnetic resonance. The book discusses electron spin resonance in applications related to polyatomic, probably organic, free radicals in condensed phases. The book also focuses on essentially stati...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Harriman, John E.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Academic Press, 1978.
Colección:Physical chemistry ; volume 37.
Temas:
Electron paramagnetic resonance spectroscopy.
Spectroscopie de r�esonance paramagn�etique �electronique.
SCIENCE > Physics > Magnetism.
Electron paramagnetic resonance spectroscopy
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Theoretical Foundations of Electron Spin Resonance; Copyright Page; Table of Contents; PREFACE; ACKNOWLEDGMENTS; CHAPTER 0. REVIEW OF ELEMENTARY ELECTRON SPIN RESONANCE; Systems Studied by Electron Spin Resonance; The Basic Electron Spin Resonance Experiment; Relaxation and Lineshape; The Spin Hamiltonian; The Electronic Zeeman Interaction; Magnetic Hyperfine Interactions; Equivalent Nuclei and Intensity Patterns; Other Interactions; Chapter I.THE ORIGIN OF MAGNETICENERGY LEVELS; 1. The Dirac Electron; 2. The Relationship between Relativistic and Nonrelativistic Theories
  • 3. Radiative Corrections4 . Relativistic Many-Electron Theories; 5. Effects of Nuclear Structure; 6. The Separation of Nuclear and Electronic Motions; Chapter II.THE DESCRIPTION OF MAGNETIC ENERGY LEVELS; 7. The Spin Hamiltonian as a Summary of Experimental Data; 8. The Relationship of the Spin Hamiltonian to Calculated Energy Levels; 9. Perturbation Expressions for Spin Hamiltonian Parameters; 10. Summarizing Calculated Data in Terms of Density Matrix Components; Chapter III.CALCULATIONS; 11. Wave Functions for Open-Shell Systems; 12. Evaluation of Spin Hamiltonian Parameters
  • 13. Semiempirical Methods14. External Perturbations; APPENDICES; Appendix A: Classical Mechanics and Fields including Relativistic Forms; Units; Appendix B: Gauge Transformations in Nonrelativistic Quantum Mechanics; Appendix C: Rotations, Tensors, Angular Momentum, and Related Topics; Appendix D: Reduced Density Matrice; Appendix E: Some Useful Operator Identities and Matrix Relationships; Appendix F: Summary of Terms in the Hamiltonian; REFERENCES; INDEX; Physical Chemistry

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