Advances in Magnetic Resonance
Volume 3
- 1st book:metaData.edition - January 1, 1968
- book:metaData.latestEdition
- common:contributors.editor John S. Waugh
- publicationLanguages:language
Advances in Magnetic Resonance, Volume 3, describes a number of important developments which are finding increasing application by chemists. The book contains five chapters and… seeMoreDescription
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Advances in Magnetic Resonance, Volume 3, describes a number of important developments which are finding increasing application by chemists. The book contains five chapters and begins with a discussion of how the properties of random molecular rotations reflect themselves in NMR and how they show up, often differently, in other kinds of experiments. This is followed by separate chapters on the Kubo method, showing its equivalence to the Redfield approach in the cases of most general interest; the current state of dynamic nuclear polarization measurements in solutions and what they tell us about the interactions of molecules and about the frequency spectra of molecular motions; and insights into the structures of ferroelectric crystals and the nature of the transition to the ferroelectric state. The final chapter discusses spin temperatures and related matters.
promoMetaData.tableOfContents
promoMetaData.tableOfContents
Contributors
Preface
Contents of Previous Volumes
Tentative Contents of Future Volumes
Correlation Functions for Molecular Motion
I. Introduction
II. Correlation Functions in Spectroscopy
III. Calculations of Correlation Functions in Molecular Gases
Time Correlation Functions in Nuclear Magnetic Relaxation
I. Introduction
II. Outline of the Development
III. The Macroscopic Transport Equations
IV. Linear Relaxation Theory from the Point of View of Brownian Motion
V. Correlation Functions and Onsager's Assumption
VI. The Linear Response Theory
VII. The Time Correlation Function Formulas
VIII. Application
Appendix. The Behavior of Correlation Functions on the Macroscopic Time Scale
Dynamic Nuclear Polarization in Liquids
I. Introduction
II. Theory
III. Experimental Technique
IV. Experimental Results
Magnetic Resonance in Hydrogen-Bonded Ferroelectrics
I. Introduction
II. Deuteron Magnetic Resonance (DMR)
III. Proton Magnetic Resonance
IV. Deuteron and Proton Resonance of Ferroelectric Ammonium Salts
V. Resonance of Nuclei Other than H or D
VI. Electron Paramagnetic Resonance in H-Bonded Ferroelectrics
Appendix. Some Ferroelectric and Antiferroelectric Compounds Investigated by NMR
Thermodynamics of Spin Systems in Solids
I. Introduction
II. Spin Hamiltonians, Energy Levels
III. Spin Systems in Quasi-Equilibrium
IV. Spin-Lattice Relaxation
V. The Effects of a Weak RF Irradiation (Large Single Spin Hamiltonians)
VI. "Adiabatic" Processes. Cross-Relaxation
VII. "Sudden" Processes. Pulse Techniques
Author Index
Subject Index
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- productDetails.edition: 1
- book:metaData.latestEdition
- productDetails.published: January 1, 1968
- publicationLanguages:languageTitle: publicationLanguages:en