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Magnetic Resonance and Its Applications
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Main description:

The book is devoted to the description of the fundamentals in the area of magnetic resonance. The book covers two domains: radiospectroscopy and quantum radioelectronics. Radiospectroscopy comprises nuclear magnetic resonance , electron paramagnetic resonance, nuclear quadrupolar resonance, and some other phenomena. The radiospectroscopic methods are widely used for obtaining the information on internal (nano, micro and macro) structure of objects. Quantum radioelectronics, which was developed on the basis of radiospectroscopic methods, deals with processes in quantum amplifiers, generators and magnetometers. We do not know analogues of the book presented. The book implies a few levels of the general consideration of phenomena, that can be useful for different groups of readers (students, PhD students, scientists from other scientific branches: physics, chemistry, physical chemistry, biochemistry, biology and medicine).


Feature:

The book provides a basic understanding of the underlying theory, fundamentals and applications of magnetic resonance

The book implies a few levels of the consideration (from simple to complex) of phenomena, that can be useful for different groups of readers

The introductory chapter provides the necessary underpinning knowledge for newcomers to the methods

The exposition of theoretical materials goes from initial to final formulas through detailed intermediate expressions


Back cover:

The book is devoted to the description of the fundamentals of various radiospectroscopic methods in the area of magnetic resonance and their use for the investigation of molecular structure and dynamics and for some technical applications. This book covers two domains: radiospectroscopy and quantum radioelectronics.

Radiospectroscopy comprises nuclear magnetic resonance (NMR), electron paramagnetic resonance (EPR), nuclear quadrupolar resonance (NQR), and some other phenomena. The radiospectroscopic methods are widely used for obtaining the information on internal (micro and macro) structure of objects investigated. There are no direct analogues of magnetic relaxation processes among the physical phenomena that define spectra in infrared, visible and higher frequency spectroscopy. Relaxation parameters are directly related to molecular mobility and thus represent an unique source of information on velocity and types of thermal motion. One of the most spectacular developments is the concept of double (multi) resonances (NMR–ESR, NMR–NQR, NMR–NMR and so on).

            Quantum radioelectronics, which was developed on the basis of radiospectroscopic methods, deals with processes in quantum amplifiers, generators and magnetometers. These devices possess record-breaking characteristics: quantum generators demonstrate the highest frequency stability; quantum amplifiers possess the lowest level of set noise; quantum magnetometers are very fruitful tool for measuring weak magnetic fields (such as the Earth field).

            The introductory chapter provides the necessary underpinning knowledge for newcomers to the methods. The exposition of theoretical materials goes from initial to final formulas through detailed intermediate expressions.


Contents:

Preface

1.     Interaction between nuclei and electrons and their interaction with external electromagnetic fields

Part I Nuclear magnetic resonance (NMR)

2.     Basic principles of detection of nuclear magnetic resonance
3.     Nuclear magnetic relaxation
4.     Nuclear Magnetic Resonance in Liquids
5.     Nuclear magnetic resonance in diamagnetic solids
6.     Nuclear Magnetic Resonance in Liquid Crystals
7.     Nuclear magnetic resonance in magnetic materials  

Part II Nuclear quadrupole resonance (NQR)

8.     Nuclear quadrupole resonance
9.     Experimental methods in NQR  

Part III Electron paramagnetic resonance (EPR)

10.  Basic interactions of an electron in solids
11.  Energy levels of paramagnetic center in crystal field
12.  Covalent-coupled paramagnetic
13.  Fine structure of EPR spectra in solids
14.  Electron-nuclear interactions and hyperfine structure of EPR spectra  

Part IV Double resonances and polarization transfer

15.  Double resonances
16.  Two-dimensional NMR Fourier spectroscopy  

Part V Quantum radiofrequency electronics (radioelectronics)

17.  Basic physical ideas of quantum radioelectronics
18.  Generators with molecular and atomic beams
19.  Quantum amplifiers based on electron paramagnetic resonance
20.  The use of optical radiation in quantum radioelectronics devices
21.  Magnetic resonance quantum magnetometry

Symbols and Abbreviations

Keyword index


PRODUCT DETAILS

ISBN-13: 9783319052991
Publisher: Springer (Springer International Publishing)
Publication date: April, 2014
Pages: 690

Subcategories: General Issues