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Advances in magnetic resonance and optical resonance. Volume 12 /
Advances in Magnetic Resonance.
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
San Diego :
Academic Press,
[1988]
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| Temas: | |
| Acceso en línea: | Texto completo Texto completo |
Tabla de Contenidos:
- Front Cover; Advances in Magnetic Resonance; Copyright Page; Table of Contents; PREFACE; Chapter 1. Principles and Application of Self-Diffusion Measurements by Nuclear Magnetic Resonance; I. Introduction; II. Experimental Techniques for a Measurement of Molecular Translational Diffusion; III. Diffusion Measurements by Nuclear Magnetic Resonance: A Simplified Model; IV. Theory of NMR Self-Diffusion Measurements; V. Modifications of the NMR Field Gradient Experiment; VI. Influence of Microdynamics and Micro structure; VII. Examples of Application; VIII. Experimental.
- Chapter 2. The Spin-Lattice Relaxation Time (T1) in Mixtures of Hydrogen IsotopesI. Introduction; II. A Review of the Theory of Spin-Lattice Relaxation in Solid H2; III. Mixtures of Spin Systems; IV. The Model for Relaxation in a Mixture; V. The Test of the Relaxation Model; VI. Predictions of the Model; VII. Conclusions; ACKNOWLEDGMENTS; Chapter 3. Optical Detection of Nuclear Spin Alignment and Quadrupole Resonance in Organic Molecular Crystals; I. Introduction; II. Magnetic Resonance in Excited Triplet States of Organic Molecules; III. Optical Nuclear Spin Alignment and Polarization.
- IV. Optical Detection of Nuclear Spin Alignment and Quadrupole ResonanceV. Comparison of ODNQR in Ground and ODENDOR in Excited States; VI. Crystal Field Effects and Defect Structures in Molecular Crystals; VII. Level-Anticrossing and Spin Diffusion Effects on ODNQR; VIII. Application to Miscellaneous Systems; IX. Concluding Remarks; ACKNOWLEDGMENT; Chapter 4. Spin-1 Behavior of Systems of Dipolar Coupled Pairs of Spin-1/2 Nuclei; I. Introduction; II. Experimental Considerations; III. Formal Description of Dipolar Coupled Spin Systems.
- IV. Pure Preparation, Detection, and Analysis of CoherencesV. Preparation of Selected Mixed Coherence States; VI. Miscellaneous Sophisticated Pulse Sequences; VII. Preparation and Detection of the Quasi-Invariants of the Motion; VIII. Relaxation Times of the Quasi-Invariants and Molecular Motions; Appendix A. Evolution under Zeeman and Truncated Quadrupole Interaction; Appendix B. Commutators and Traces; Appendix C. Rotations in Spin Space; ACKNOWLEDGMENTS; Chapter 5. The Art of Pulse Crafting: Applications to Magnetic Resonance and Laser Spectroscopy; I. Introduction and Overview.
- II. Historical Role of Pulse Shapes in Magnetic Resonance and Laser SpectroscopyIII. Theoretical Formalisms: Exactly Solvable Cases; IV. Perturbative Treatments of Arbitrary Pulse Shapes; V. Numerical Optimization Methods; VI. Conclusions; ACKNOWLEDGMENTS; Chapter 6. 1H NMR Thermal Analysis; I. Introduction; II. Hardware; III. Methodology; IV. Analysis of Raw Data; V. Applications; VI. Summary; INDEX.