Advances in Magnetic Resonance

Contributors

Contents of Previous Volumes

The Theory of Chemically Induced Dynamic Spin Polarization

I. Introduction

II. Theoretical Approach

III. Basic Results for the Radical-Pair Mechanism

IV. Models Including Radical-Pair Interactions in the Diffusive Dynamics

V. Further Models and Methods

VI. The Triplet Mechanism for CIDEP

VII. Signal Intensities and Time-Resolved Experiments

Appendix: Glossary of Symbols

Optical Spin Polarization in Molecular Crystals

I. Introduction

II. The Triplet State

III. Theory of Optical Electronic Polarization (OEP)

IV. Theory of Optical Nuclear Polarization (ONP)

V. Optical Electronic Polarization: Methods and Results

VI. Optical Nuclear Polarization: Methods and Results

VII. Applications: Optical Detection of Magnetic Resonance (ODMR)

VIII. Concluding Remarks

NMR in Flowing Systems

I. Introduction

II. Characteristics of NMR in a Flowing Liquid

III. Applications of NMR in a Flowing Liquid

IV. Conclusion

Appendix: General Expression for Amplitude of Signal

Saturation Transfer Spectroscopy

I. Motivation and Outline

II. Introduction

III. Theory and Model Systems

IV. Applications

V. Studies of Spin Labels in the Intermediate and Fast Motion Regions

VI. Final Comments

Appendix I. The Spin-Density Matrix and the Hamiltonian

Appendix II. Motional and Distributional Models

Appendix III. Relaxation Rate Expressions Appropriate for the Fast Motion Region

Appendix IV. Relaxation Matrix and Expressions for Tleeff (m1) and R∞ (p,o)

Subject Index