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Zusatztext "This book by Kowalewski and Maeler provides an outstanding overview of nuclear spin relaxation. The authors successfully guide the reader towards a clear understanding of the underlying physics! which is described using an accessible formalism! and at the same time providing a rigorous treatment. The reader is gradually introduced to the more complex theories! to the understanding of standard and advanced NMR experiments! and is updated on the very recent applications. This book is highly recommended as a reference book and a textbook to learn both the fundamentals and the more advanced aspects of the field."-Claudio Luchinat! CERM! University of FlorencePraise for the first edition:"?Three areas of theory! experiment! and applications are addressed in this monograph. ?The applications throughout the book are often chosen from biochemistry! although there are examples of relaxation in 'small' organic molecules. ? I found the book very readable. I am quite sure that NMR spectroscopists and chemists ? will find it a particularly handy reference ? ."-Journal of the American Chemical Society! Vol. 128! No. 32! 2006 Informationen zum Autor Jozef Kowalewski is professor emeritus of Physical Chemistry, at the Department of Materials and Environmental Chemistry, Stockholm University, Sweden. Lena Mäler is professor in Biochemistry at the Department of Biochemistry and Biophysics, Stockholm University, Sweden. Zusammenfassung Updated and expanded, this second edition of Nuclear Spin Relaxation in Liquids explores the nature of nuclear magnetic resonance (NMR), shows how to study it, and explains why such studies are worthwhile. It is suitable as supplementary reading for graduate students, and will be a valuable reference for NMR spectroscopists in a variety of fields. Inhaltsverzeichnis 1 Equilibrium and Non-Equilibrium States in NMR 2 Simple Relaxation Theory 3 Relaxation through Dipolar Interactions 4 The Redfield Relaxation Theory 5 Applications of Redfield Theory to Systems of Spin 1/2 Nuclei 6 Spectral Densities and Molecular Dynamics 7 NMR: The Toolbox 8 Measuring T 1 and T 2 Relaxation Rates 9 Cross-Relaxation Measurements 10 Cross-Correlation and Multiple-Quantum Relaxation Measurements 11 Relaxation and Molecular Dynamics 12 Applications of Relaxation-Related Measurements to Structure Determination 13 Relaxation and Chemical Exchange 14 Effects of Quadrupolar Nuclei 15 Nuclear Spin Relaxation in Paramagnetic Systems in Solution 16 Long-Lived Nuclear Spin States and Related Topics 17 Nuclear Spin-Relaxation in Other Aggregation States ...
