Advances in magnetic resonance. Volume 2 /

Advances in Magnetic Resonance, Volume 2, features a mixture of experimental and theoretical contributions. The book contains four chapters and begins with an ambitious and general treatment of the problem of signal-to-noise ratio in magnetic resonance. This is followed by separate chapters on the i...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Waugh, John S. (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: [Place of publication not identified] : Academic Press, [1966]
Temas:
Magnetic resonance.
Nuclear magnetic resonance.
Magnetic Resonance Spectroscopy
R�esonance magn�etique.
R�esonance magn�etique nucl�eaire.
nuclear magnetic resonance.
SCIENCE > Physics > Magnetism.
Magnetic resonance
Nuclear magnetic resonance
Acceso en línea:Texto completo
Texto completo
Tabla de Contenidos:
  • Front Cover; Advances in Magnetic Resonance; Copyright Page; Contributors; Preface; Table of Contents; Contents of Previous Volumes; Tentative Contents of Future Volumes; Advances in MAGNETIC RESONANCE; Chapter 1. Sensitivity Enhancement in Magnetic Resonance; I. Introduction; II. Methods to Improve the Sensitivity; III. The Information Processor; IV. Optimum Timing of Magnetic Resonance Experiments; Appendix A: Definition of the Fourier Transform; Appendix B: Some Remarks about Linear Filters; Appendix C: Some Remarks about Random Noise; Appendix D: Measurement of the Signal-to-Noise Ratio
  • Appendix E: Calculation of Optimum FiltersAppendix F: Intermediate Passage Region; Appendix G: Conditions for Adiabatic Passage in Liquids and Gases; Chapter 2. The Chemical Shift and Other Second-Order Magnetic and Electric Properties of Small Molecules; I. Introduction; II. The Bound Proton in a Strongly Separated Molecular Ground State; III. Proton Shielding in Transition Metal Hydride Complexes; IV. General Theory of Chemical Shift; Appendix A: Molecular Self-Consistent Field Theory for Unperturbed Molecules; Appendix B: Perturbed (or Coupled) Self-Consistent Field Theory
  • Chapter 3. Theory of the Chemical ShiftI. Introduction; II. General Theory; III. Calculations; IV. Discussion; Appendix A: The Current Density Procedure and Pseudofields; Appendix B: The Magnetic Susceptibility of a Cyclic Molecule and London's Procedure; Chapter 4. Nuclear Relaxation in Hydrogen Gas and Liquid; I. Introduction; II. Qualitative Discussion of H2 Relaxation; III. Relaxation Theory; IV. Evaluation of the Lattice Correlation Functions; V. Interpretation of the Experimental H2 Gas Data; VI. Interpretation of the Experimental Adulterated H2 Gas Data
  • VII. Interpretation of the Experimental H2 Liquid DataVIII. Conclusions; Author Index; Subject Index

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