Spin Dynamics Basics of Nuclear Magnetic Resonance

Name: Spin Dynamics Basics of Nuclear Magnetic Resonance
Price: 56.02 USD
Availability: InStock
ISBN: 9780470511176

ISBN-10: 0470511176

ISBN-13: 9780470511176

Edition: 2nd 2008 (Revised)

Authors: Malcolm H. Levitt

List price: $99.95

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Description:

'Spin Dynamics' focuses on those essential principles and concepts needed for a thorough understanding of the subject, rather than its practical aspects.

Book details

List price: $99.95
Edition: 2nd
Copyright year: 2008
Publisher: John Wiley & Sons, Incorporated
Publication date: 4/21/2008
Binding: Paperback
Pages: 752
Size: 7.51" wide x 9.72" long x 1.68" tall
Weight: 3.784
Language: English



Preface


Preface to the First Edition


Introduction



Nuclear Magnetism



Matter



Atoms and Nuclei



Spin



Nuclei



Nuclear Spin



Atomic and Molecular Structure



States of Matter


Notes


Further Reading


Exercises



Magnetism



The Electromagnetic Field



Macroscopic Magnetism



Microscopic Magnetism



Spin Precession



Larmor Frequency



Spin-Lattice Relaxation: Nuclear Paramagnetism



Transverse Magnetization and Transverse Relaxation



NMR Signal



Electronic Magnetism


Notes


Further Reading


Exercises



NMR Spectroscopy



A Simple Pulse Sequence



A Simple Spectrum



Relative Spectral Frequencies: Case of Positive Gyromagnetic Ratio



Relative Spectral Frequencies: Case of Negative Gyromagnetic Ratio



Inhomogeneous Broadening



Chemical Shifts



J-Coupling Multiplets



Heteronuclear Decoupling


Notes


Further Reading


Exercises



The NMR Experiment



The NMR Spectrometer



The Magnet



The Transmitter Section



The Duplexer



The Probe



The Receiver Section



Overview of the Radio-Frequency Section



Pulsed Field Gradients


Notes


Further Reading



Fourier Transform NMR



A Single-Pulse Experiment



Signal Averaging



Multiple-Pulse Experiments: Phase Cycling



Heteronuclear Experiments



Pulsed Field Gradient Sequences



Arrayed Experiments



NMR Signal



NMR Spectrum



Two-Dimensional Spectroscopy



Three-Dimensional Spectroscopy



Quantum Mechanics



Mathematical Techniques



Functions



Operators



Eigenfunctions, Eigenvalues and Eigenvectors



Diagonalization



Exponential Operators



Cyclic Commutation


Notes


Further Reading


Exercises



Review of Quantum Mechanics



Spinless Quantum Mechanics



Energy Levels



Natural Units



Superposition States and Stationary States



Conservation Laws



Angular Momentum



Spin



Spin-1/2



Higher Spin


Notes


Further Reading


Exercises



Nuclear Spin Interactions



Nuclear Spin Hamiltonian



Spin Hamiltonian Hypothesis



Electromagnetic Interactions



External and Internal Spin Interactions



External Magnetic Fields



Internal Spin Hamiltonian



Motional Averaging


Notes


Further Reading


Exercises



Internal Spin Interactions



Chemical Shift



Electric Quadrupole Coupling



Direct Dipole-Dipole Coupling



J-Coupling



Spin-Rotation Interaction



Summary of the Spin Hamiltonian Terms


Notes


Further Reading


Exercises



Uncoupled Spins



Sin