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Spin Dynamics: Basics of Nuclear Magnetic Resonance, by Malcolm H. Levitt
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Spin Dynamics: Basics of Nuclear Magnetic Resonance, Second Edition is a comprehensive and modern introduction which focuses on those essential principles and concepts needed for a thorough understanding of the subject, rather than the practical aspects. The quantum theory of nuclear magnets is presented within a strong physical framework, supported by figures.
The book assumes only a basic knowledge of complex numbers and matrices, and provides the reader with numerous worked examples and exercises to encourage understanding. With the explicit aim of carefully developing the subject from the beginning, the text starts with coverage of quarks and nucleons and progresses through to a detailed explanation of several important NMR experiments, including NMR imaging, COSY, NOESY and TROSY.
Completely revised and updated, the Second Edition features new material on the properties and distributions of isotopes, chemical shift anisotropy and quadrupolar interactions, Pake patterns, spin echoes, slice selection in NMR imaging, and a complete new chapter on the NMR spectroscopy of quadrupolar nuclei. New appendices have been included on Euler angles, and coherence selection by field gradients. As in the first edition, all material is heavily supported by graphics, much of which is new to this edition.
Written for undergraduates and postgraduate students taking a first course in NMR spectroscopy and for those needing an up-to-date account of the subject, this multi-disciplinary book will appeal to chemical, physical, material, life, medical, earth and environmental scientists. The detailed physical insights will also make the book of interest for experienced spectroscopists and NMR researchers.
• An accessible and carefully written introduction, designed to help students to fully understand this complex and dynamic subject
• Takes a multi-disciplinary approach, focusing on basic principles and concepts rather than the more practical aspects
• Presents a strong pedagogical approach throughout, with emphasis placed on individual spins to aid understanding
• Includes numerous worked examples, problems, further reading and additional notes
Praise from the reviews of the First Edition:
"This is an excellent book... that many teachers of NMR spectroscopy will cherish... It deserves to be a ‘classic’ among NMR spectroscopy texts." NMR IN BIOMEDICINE
"I strongly recommend this book to everyone…it is probably the best modern comprehensive description of the subject." ANGEWANDTE CHEMIE, INTERNATIONAL EDITION
- Sales Rank: #1327520 in eBooks
- Published on: 2013-05-20
- Released on: 2013-05-20
- Format: Kindle eBook
Review
"Overall for the right, highly targeted readership, this is an excellent textbook" (Times Higher Educational Supplement, 22 February 2002)
"This is an excellent book...that many teachers of NMR spectroscopy will cherish..." (NMR in Biomedicine, June 2002)
"...Overall this is an excellent book..." (Physical Sciences Educational Reviews, November 2002)
"...Spin Dynamics provides an excellent middle of the range text for physical chemists and biophysicists..." (Contemporary Physics, Vol.44, No.2, 2003)
"I strongly recommend this book to everyone?it is probably the best modern comprehensive description of the subject." (Angewandte Chemie, International Edition, Vol. 42, 2003)
From the Back Cover
Spin Dynamics: Basics of Nuclear Magnetic Resonance is a comprehensive and truly modern introduction, written to appeal to undergraduate and postgraduate students, and also active researchers in NMR, spectroscopy and quantum physics. The book focuses on those essential principles and concepts needed for a thorough understanding of the subject, rather than its practical aspects. The quantum theory of nuclear magnets is presented within a strong physical framework, supported by a large number of figures, helping to make the text accessible to a wide range of readers.
Spin Dynamics, Basics of Nuclear Magnetic Resonance assumes only a basic knowledge of complex numbers and matrices, and provides the reader with numerous worked examples and problems to encourage student understanding. With the explicit aim of carefully developing the subject from the beginning, the text starts with coverage of quarks and nucleons and carries through to a detailed explanation of several important NMR experiments, including NMR imaging, COSY and NOESY.
Written for undergraduate and postgraduate students taking a first course in NMR spectroscopy and for those needing a up-to-date account of the subject, this multi-disciplinary book will appeal to chemical, physical, material, life, medical, earth and environmental scientists. The detailed physical insights will also make the book of interest for experienced spectroscopists and NMR researchers.
Spin Dynamics: Basics of Nuclear Magnetic Resonance:
* Is an accessible and carefully written introduction, designed to help students fully understand this complex and dynamic subject.
* Takes a multi-disciplinary approach, focusing on basic principles and concepts rather than the more practical aspects.
* Presents a strong pedagogical approach throughout, with emphasis placed on individual spins to aid understanding.
* Includes numerous worked examples, problems, further reading and additional notes and appendices containing more advanced material.
Most helpful customer reviews
14 of 15 people found the following review helpful.
Clear first introduction to NMR
By M S ANWAR
This book could simply be stated as an excellent attempt to introduce the foundations of NMR. It is a very good primer on all theoretical aspects that are essential to an understanding of the subject.
It offers a methodical, step-by-step approach. Useful tools and consistent terminology are the most attracting feature of this volume. It is well-illustrated; and controversial issues are highlighted in the "Notes" sections at the end of each chapter. It has illustrative problems at the end of each chapter, with solutions provided at the end.
Interestingly, the appendix covers many important aspects that are needed at a more advanced stage. Useful tools for the understanding of NMR are developed at appropriate stages. These include: the box notation for coherences, populations, density matrices and transitions; the origin of NMR spectra from individual coherence terms in the density matrix; origin of 2-D NMR signals as well as many important concepts in Fourier Transform NMR are described. The origins of relaxation enjoy a very readable and simplistic approach in the last chapter.
Whenever simplistic approximations are used, the author never claims of completeness or rigour. Distinction is made between terms that are physically correct and terms that are sometimes misleading, but enjoy widespread use in the NMR spectroscopy convention. The essential tools in quantum mechanics are outlined, product operator descriptions are used frequently and repetitively, that enhances understanding and provides more practice. Pictorial representations have been given where possible, a view-point beginners like myself find very useful.
One drawback, is a careful side-lining of the very important technique of using pulse-field gradients, although their cousin technique, named pulse-cycles is quite elaborately explained. I hope, the next issue of the book would also cover up this important technique.
3 of 3 people found the following review helpful.
A Stepping Stone For More Advanced Work
By Ken from Doylestown
This book was published in spring of 2008. A review of this book in 2013 appears to be soon outdated because a new edition may be coming out very soon in the future. However, my comments on this book mainly focus on the approach and the presentation of the subject of theoretical NMR. Unless there are drastic changes in the future new edition, these comments should not become obsoleted. First, I must say that I cannot agree with all the other reviewers that this book should be given a 5-star rating. The best I can give is a 3-star, at most 3.5-star rating. Mathematically this book is one or two notches more advanced than Keeler's book "Understanding NMR Spectroscopy". However, I will use Keeler's book as a benchmark. Whereas Keeler hardly uses any matrices, matrix algebra is used extensively throughout this book. Matrix terminologies like Hermitian and adjoint appear frequently throughout the text. The concept of density matrix is introduced at approximately one third of the book and used in explaining all the phenomena in NMR spectroscopy. Whereas Keeler's book only covers product operator formalism, something that is only applicable to weak coupling. Levitt's also covers strong coupling. Keeler's book only deals with nuclei of having spin of 1/2. This book devotes a single chapter on quadrupolar nuclei and is very well-written and interesting. Most books on elementary NMR do not cover quadrupolar nuclei. The weakest point of this book is the way the mathematics is presented. The author has a tendency to omit some steps in a derivation and proof. Phrases such as "such a relationship can be written as ..." appears frequently in the book. The writing style of this book sometimes makes it difficult to relate one part of the book to the o ther.This makes the readers wonder how such a relationship is derived. In some cases, the relationship is derived or proved futher down the text. In other cases, it can be derived or proved from previous equations which the author sometimes does not specify. As far as clarity in exposing the subject of NMR spectroscopy is concerned, it is not close to Keeler's. This book covers many usual topics such as COSY and spectrum classification in NMR spectroscopy. However, the book does not cover techniques such as HMBC and HSQC. The first 200 pages of the book mainly deals with the mathematics and quantum mechanics that will be needed in subsequent portion of the book and is well-presented. However, when compared with chapter 2 of Cavanagh's "Protein NMR Spectroscopy", the latter is by far better. All the mathematical steps in Cavanagh' book are detailly laid out, although the mathematics is on a higher level. Keeler does a much better job in presenting relaxation. Phase cycle is not dealt with extensively in the main body of Levitt's book. It is done mathematically in Appendix A11. The elimination of unwanted peaks due to isolated C-13 by phase cycle in INADEQUATE is particularly well presented. Again, I think the treatment of phase cycle in general in Keeler's book is better, although it is less mathematical and general. In principle, this book is self-contained. It covers all the necessary background material at the beginning. However, it would be very helpful if one has read Keeler's book before starting this book.
Despite some of its shortcomings, this book as a whole is a good book for people who want to understand NMR beyond Keeler's. I am not aware of any books that deal with NMR at this level and do an better job. It does a satisfactory job in presenting more advanced mathematically techniques in NMR. However, I do feel that its presentation is not as good as Keeler's and does not deserve a 5-star rating. As far as I understand, it also has a few important typos.
5 of 6 people found the following review helpful.
A must have for any aspiring NMR jockeys
By Alan A. Chen
For those studying biomolecules with NMR, the unofficial bible is of course the maroon colored Cavanagh book. Though this is an excellent book, it isn't the best suited book for beginners. This is where Levitt's book comes in: this is by far the kindest introduction to NMR that I have seen, with heavy emphasis on understanding the concepts first and the formalism later. The book is full of useful diagrams, detailed analogies, and exercises for the reader where other books only show equations. So borrows someone's Cavanagh first, and if you get stuck after 20 pages then order yourself a copy of Levitt and you won't be disappointed. If you already have studied NMR and are looking at how to apply it to proteins, then Cavanagh should suit you fine.
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