Electron Spin Resonance
Springer (Verlag)
978-94-010-8307-2 (ISBN)
1 Basic Principles of Electron Spin Resonance.- 2 Basic Instrumentation of Electron Spin Resonance.- 3 Nuclear Hyperfine Interaction.- 4 Analysis of Electron Spin Resonance Spectra of Systems in the Liquid Phase.- 5 Interpretation of Hyperfine Splittings in ?-type Organic Radicals.- 6 Mechanism of Hyperfine Splittings in Conjugated Systems.- 7 Anisotropic Interactions in Oriented Systems with S = 1/2.- 8 Interpretation of the ESR Spectra of Systems in the Solid State.- 9 Time-dependent Phenomena.- 10 Energy-level Splitting in Zero Magnetic Field; The Triplet State.- 11 Transition-metal Ions. I..- 12 Transition-metal Ions. II. Electron Resonance in the Gas Phase.- 13. Double-resonance Techniques.- 14. Biological Applications of Electron Spin Resonance.- Appendix A. Mathematical Operations.- A-1 Complex Numbers.- A-2 Operator Algebra.- A-2a Properties of Operators.- A-2b Eigenvalues and Eigenfunctions.- A-3 Determinants.- A-4 Vectors: Scalar, Vector, and Outer Products.- A-5 Matrices.- A-5a Addition and Subtraction of Matrices.- A-5b Multiplication of Matrices.- A-5c Special Matrices and Matrix Properties.- A-5d Dirac Notation for Wave Functions and Matrix Elements.- A-5e Diagonalization of Matrices.- A-6 Tensors.- A-7 Perturbation Theory.- A-8 Euler Angles.- Problems.- Appendix B. Quantum Mechanics of Angular Momentum.- B-1 Introduction.- B-2 Angular-momentum Operators.- B-3 The Commutation Relations for the Angular-momentum Operators.- B-6 Angular-momentum Matrices.- B-7 Addition of Angular Momenta.- B-8 Summary.- Problems.- C-1 The Hamiltonian for the Hydrogen Atom.- C-2 The Spin Eigenfunctions and the Energy Matrix for the Hydrogen Atom.- C-3 Exact Solution of the Determinant of the Energy Matrix (Secular Determinant).- C-4 Selection Rules for High-fieldMagnetic-dipole Transitions in the Hydrogen Atom.- C-5 The Transition Frequencies in Constant Magnetic Field with a Varying Microwave Frequency.- C-6 The Resonant Magnetic Fields at Constant Microwave Frequency.- C-7 Calculation of the Energy Levels of the Hydrogen Atom by Perturbation Theory.- C-8 Wave Functions and Allowed Transitions for the Hydrogen Atom at Low Magnetic Fields.- Problems.- Appendix D. Experimental Methods; Spectrometer Performance.- D-1 Sensitivity.- D-2 Factors Affecting Sensitivity and Resolution.- D-2a Modulation Amplitude.- D-2b Modulation Frequency.- D-2c Microwave Power Level.- D-2d The Concentration of Paramagnetic Centers.- D-2e Temperature.- D-2g Microwave Frequency.- D-2h Signal Averaging.- D-3 Absolute Intensity Measurements.- Problems.- Table of Symbols.- Name Index.
Zusatzinfo | XIV, 500 p. |
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Verlagsort | Dordrecht |
Sprache | englisch |
Maße | 155 x 235 mm |
Themenwelt | Sachbuch/Ratgeber ► Natur / Technik ► Garten |
Schulbuch / Wörterbuch ► Lexikon / Chroniken | |
Geisteswissenschaften | |
Naturwissenschaften | |
Sozialwissenschaften | |
ISBN-10 | 94-010-8307-X / 940108307X |
ISBN-13 | 978-94-010-8307-2 / 9789401083072 |
Zustand | Neuware |
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