Theory and Chemical Applications
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Köp båda 2 för 2492 krPulse and Fourier Transform NMR: Introduction to Theory and Methods presents the different types of pulse experiments that are commonly used and provides the theoretical background necessary for understanding these techniques. This book evaluates ...
"This work not only bridges the decades and generations in NMR spectroscopy, but is also an exceptional handbook and reference resource. It simultaneously represents and illustrates the amazing--and still ongoing--enhancement of NMR, which has become an indispensable tool for so many applications in science, medicine and engineering. This book is an outstanding coordinating work, an excellent resource, and a reference for further studies in the field of NMR. I consider it a must for all NMR spectroscopists and teachers who deal with the subject. Also, I wholeheartedly recommend it to students, and to anyone else who wants to receive an enjoyable introduction to the exciting field of NMR spectroscopy and its applications." --Istvan Pelczer, Princeton University, THE NMR NEWSLETTER
"The main aim of the third edition is to show the graduate researcher how a combination of steady state energy levels, classical vectors, density matrices and product operators may be used to understand complicated pulse sequences. This work undoubtedly succeeds in making a challenging and ever-changing area accessible and clear. From the beginning, the author made me feel extremly comfortable with 'non-classical' treatments of NMR. While the text deals with many other aspects of NMR, this book should be recommended as a starting text to anyone with a particular interest in density matrix theory." --Dr. Mick Mantle, Manager, University of Cambridge, TRENDS IN ANALYTICAL CHEMISTRY, Vol. 20, no. 1, 2001.
Introduction: Historical. High Resolution NMR. The Theory of NMR: Nuclear Spin and Magnetic Moment. Classical Mechanical Description of NMR. Quantum Mechanical Description of NMR. Effect of the Boltzmann Distribution. Spin-Lattice Relaxation. Line Widths. Saturation. Macroscopic Magnetization. The Bloch Equations: Nuclear Induction. The Rotating Frame of Reference. Adiabatic Passage: Ringing Problems. Instrumentation and Techniques: Basic NMR Apparatus. Requirements for High Resolution NMR. Subject Index.