| Titre : | Nuclear Spin Relaxation in Liquids Theory, Experiments, and Applications, Second Edition |
| Auteurs : | Kowalewski Jozef, Auteur ; Maler Lena, Auteur |
| Type de document : | Monographie imprimée |
| Mention d'édition : | 2nd Edition |
| Editeur : | CRC Press Editeur, 2019 |
| ISBN/ISSN/EAN : | 978-0-367-89006-3 |
| Format : | 1VOL.(388.p) / ill.couv.ill.en coul / 25.5CM |
| Langues: | Anglais |
| Langues originales: | Anglais |
| Résumé : |
Nuclear magnetic resonance (NMR) is widely used in many scientific fields because of the wealth of data it produces, and some of the most valuable data come from studies of nuclear spin relaxation in solution. The first edition of this book, published over a decade ago, provided an accessible and coherent treatment of the field. This second edition is a major update, covering important new developments in recent years.Bringing together relaxation theory, experimental techniques, and illustrative applications in a single volume, this book clarifies the nature of the phenomenon, shows how to study it, and explains why such studies are worthwhile. Coverage ranges from basic to rigorous theory and from simple to sophisticated experimental methods. Topics include cross-relaxation, multispin phenomena, relaxation studies of molecular dynamics and structure, and special topics such as relaxation in quadrupole systems, in paramagnetic systems, and in long-lived spin states. Avoiding demanding mathematics, the authors explain spin relaxation in a way that anyone familiar with NMR can follow. The emphasis is on illustrating and explaining the physical nature of relaxation phenomena. Nuclear Spin Relaxation in Liquids: Theory, Experiments and Applications, 2nd Edition , provides useful supplementary reading for graduate students and is a valuable reference for NMR spectroscopists, whether in chemistry, physics, or biochemistry. |
| Sommaire : |
Chapter 1: Equilibrium and non-equilibrium states in NMR. Chapter 2: Simple relaxation theory. Chapter 3: Relaxation by dipolar interactions. Chapter 4: Redfield relaxation theory. Chapter 5: Applications of Redfield theory to spin 1/2 nuclei systems. Chapter 6: Spectral densities and molecular dynamics. Chapter 7: NMR: the toolbox. Chapter 8: Measurement of relaxation rates T 1 and T 2. Chapter 9: Cross-relaxation measurements. Chapter 10: Cross-correlation and multiple quantum relaxation measurements. Chapter 11: Relaxation and molecular dynamics. Chapter 12: Applications of relaxation-related measurements to structure determination. Chapter 13: Relaxation and chemical exchange. Chapter 14: Effects of quadrupole nuclei. |
| Type de document : | Livres |
Disponibilité (2)
| Cote | Support | Localisation | Statut |
|---|---|---|---|
| PHY/883 | Livre | bibliothèque sciences exactes | Empruntable |
| PHY/883 | Livre | bibliothèque sciences exactes | Empruntable |
