Theoretical Foundations of Electron Spin Resonance -  John E. Harriman

Theoretical Foundations of Electron Spin Resonance (eBook)

Physical Chemistry: A Series of Monographs

(Autor)

Ernest M. Loebl (Herausgeber)

eBook Download: PDF
2013 | 1. Auflage
416 Seiten
Elsevier Science (Verlag)
978-1-4831-9166-9 (ISBN)
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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 static phenomena, that is, the description and determination of stationary-state energy levels. The author reviews the Dirac theory of the electron in which a four-component wave function is responsible for the behavior of the electron. The author then connects this theory with the nonrelativistic wave function theory. The book also addresses the relationship between spin Hamiltonian parameters and observable energy levels, as well as the expressions for specific spin Hamiltonian parameters concerning operators and wave functions. The book discusses wave- functions for open-shell systems; as well as how to extract values of spin Hamiltonian from information related to wave functions. The author then examines empirically adjusted parameters that can determine the wave function itself. This book can prove valuable for scientists involved with nuclear physics, molecular physics, and researchers in chemical physics.
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 static phenomena, that is, the description and determination of stationary-state energy levels. The author reviews the Dirac theory of the electron in which a four-component wave function is responsible for the behavior of the electron. The author then connects this theory with the nonrelativistic wave function theory. The book also addresses the relationship between spin Hamiltonian parameters and observable energy levels, as well as the expressions for specific spin Hamiltonian parameters concerning operators and wave functions. The book discusses wave- functions for open-shell systems; as well as how to extract values of spin Hamiltonian from information related to wave functions. The author then examines empirically adjusted parameters that can determine the wave function itself. This book can prove valuable for scientists involved with nuclear physics, molecular physics, and researchers in chemical physics.

Front Cover 1
Theoretical Foundations of Electron Spin Resonance 4
Copyright Page 5
Table of Contents 6
PREFACE 10
ACKNOWLEDGMENTS 14
CHAPTER 0. REVIEW OF ELEMENTARY ELECTRON SPIN RESONANCE 16
Systems Studied by Electron Spin Resonance 16
The Basic Electron Spin Resonance Experiment 17
Relaxation and Lineshape 19
The Spin Hamiltonian 21
The Electronic Zeeman Interaction 22
Magnetic Hyperfine Interactions 24
Equivalent Nuclei and Intensity Patterns 25
Other Interactions 28
Chapter I. 
30 
1. The Dirac Electron 30
2. The Relationship between Relativistic and Nonrelativistic Theories 52
3. Radiative Corrections 83
4 . Relativistic Many-Electron Theories 91
5. Effects of Nuclear Structure 105
6. The Separation of Nuclear and Electronic Motions 113
Chapter II. 
126 
7. The Spin Hamiltonian as a Summary of Experimental Data 126
8. The Relationship of the Spin Hamiltonian to Calculated Energy Levels 179
9. Perturbation Expressions for Spin Hamiltonian Parameters 204
10. Summarizing Calculated Data in Terms of Density Matrix Components 223
Chapter III. 
236 
11. Wave Functions for Open-Shell Systems 236
12. Evaluation of Spin Hamiltonian Parameters 292
13. Semiempirical Methods 317
14. External Perturbations 341
APPENDICES 344
Appendix A: Classical Mechanics and Fields including Relativistic Forms Units
Appendix B: Gauge Transformations in Nonrelativistic Quantum Mechanics 358
Appendix C: Rotations, Tensors, Angular Momentum, and Related Topics 361
Appendix D: Reduced Density Matrice 380
Appendix E: Some Useful Operator Identities and Matrix Relationships 385
Appendix F: Summary of Terms in the Hamiltonian 393
REFERENCES 402
INDEX 410
Physical Chemistry 415

Erscheint lt. Verlag 22.10.2013
Sprache englisch
Themenwelt Naturwissenschaften Physik / Astronomie Elektrodynamik
Technik
ISBN-10 1-4831-9166-4 / 1483191664
ISBN-13 978-1-4831-9166-9 / 9781483191669
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