NMR imaging of materials /
Blümich, Bernhard,
NMR imaging of materials / Bernhard Blümich. - Oxford : New York : Clarendon Press ; Oxford University Press, 2000. - 1 online resource (xxiii, 541 pages) : illustrations - Monographs on the physics and chemistry of materials ; 57 . - Monographs on the physics and chemistry of materials ; 57. .
Includes bibliographical references and index.
Intro; Contents; List of symbols and abbreviations; 1 Introduction; 1.1 Nuclear magnetic resonance; 1.1.1 NMR and the spinning top; 1.1.2 NMR spectroscopy; 1.1.3 NMR imaging; 1.1.4 NMR imaging in biomedicine; 1.1.5 Contrast in NMR imaging; 1.1.6 NMR imaging in materials science; 1.1.7 Equipment; 1.2 About this book; 1.2.1 The NMR signal in the presence of slow molecular motion; 1.2.2 Literature; 1.2.3 The contents of this book; 2 Fundamentals; 2.1 Magnetic fields; 2.1.1 Homogeneous magnetic fields; 2.1.2 Magnetic-field gradients; 2.2 Principles of NMR; 2.2.1 An NMR primer 2.2.2 Spin-system response from quantum mechanics2.3 Hardware; 2.3.1 Overview of basic components; 2.3.2 The magnet; 2.3.3 The transmitter side; 2.3.4 The receiver side; 3 NMR spectroscopy; 3.1 Anisotropic nuclear spin interactions; 3.1.1 Interaction Hamiltonians; 3.1.2 General formalism; 3.1.3 Strong magnetic fields; 3.1.4 Orientation dependence of the resonance frequency; 3.2 Wideline NMR; 3.2.1 Molecular order; 3.2.2 Molecular reorientation; 3.3 High-resolution solid-state NMR; 3.3.1 Cross-polarization; 3.3.2 High-power decoupling; 3.3.3 Sample spinning; 3.3.4 Multi-pulse methods 3.4 Echoes3.5 Relaxation; 3.5.1 Liquids; 3.5.2 Solids and slow motion; 3.5.3 Spin diffusion; 4 Transformation, convolution, and correlation; 4.1 Fourier transformation; 4.2 Convolution; 4.2.1 Linear systems; 4.2.2 Nonlinear systems; 4.2.3 The convolution theorem; 4.3 Correlation; 4.3.1 Linear system analysis; 4.3.2 Nonlinear cross-correlation; 4.3.3 The correlation theorem; 4.4 Further transformations; 4.4.1 Laplace transformation; 4.4.2 Hankel transformation; 4.4.3 Abel transformation; 4.4.4 z transformation; 4.4.5 Hadamard transformation; 4.4.6 Wavelet transformation 6.2 Fourier imaging6.2.1 The spin-warp technique; 6.2.2 Multi-slice imaging; 6.2.3 3D imaging; 6.2.4 Spectroscopic imaging; 6.2.5 Stimulated-echo imaging; 6.2.6 Imaging with CPMG echoes; 6.2.7 Gradient-echo imaging; 6.2.8 Ultra-fast imaging; 6.3 Imaging in the rotating frame; 6.4 Imaging with noise excitation; 7 Contrast; 7.1 Image contrast; 7.1.1 Optimization of contrast; 7.1.2 Magnetization filters: parameter weights; 7.1.3 Transfer functions and mobility filters; 7.1.4 Parameter contrast; 7.1.5 Contrast parameters; 7.1.6 NMR parameters and material properties; 7.2 Filters
Written for graduates, scientists and engineers, 'NMR Imaging of Materials' provides an introduction to a growing field. A large number of applications in basic research and quality control are now possible using NMR techniques.
9780191545078 (electronic bk.) 0191545074 (electronic bk.) 1280375140 9781280375149
Nuclear magnetic resonance.
Materials science.
Magnetic Resonance Spectroscopy
Résonance magnétique nucléaire.
Science des matériaux.
nuclear magnetic resonance.
SCIENCE--Physics--Magnetism.
Materials science.
Nuclear magnetic resonance.
Electronic books.
Electronic books.
QD96.N8 / B58 2000eb
538/.362
NMR imaging of materials / Bernhard Blümich. - Oxford : New York : Clarendon Press ; Oxford University Press, 2000. - 1 online resource (xxiii, 541 pages) : illustrations - Monographs on the physics and chemistry of materials ; 57 . - Monographs on the physics and chemistry of materials ; 57. .
Includes bibliographical references and index.
Intro; Contents; List of symbols and abbreviations; 1 Introduction; 1.1 Nuclear magnetic resonance; 1.1.1 NMR and the spinning top; 1.1.2 NMR spectroscopy; 1.1.3 NMR imaging; 1.1.4 NMR imaging in biomedicine; 1.1.5 Contrast in NMR imaging; 1.1.6 NMR imaging in materials science; 1.1.7 Equipment; 1.2 About this book; 1.2.1 The NMR signal in the presence of slow molecular motion; 1.2.2 Literature; 1.2.3 The contents of this book; 2 Fundamentals; 2.1 Magnetic fields; 2.1.1 Homogeneous magnetic fields; 2.1.2 Magnetic-field gradients; 2.2 Principles of NMR; 2.2.1 An NMR primer 2.2.2 Spin-system response from quantum mechanics2.3 Hardware; 2.3.1 Overview of basic components; 2.3.2 The magnet; 2.3.3 The transmitter side; 2.3.4 The receiver side; 3 NMR spectroscopy; 3.1 Anisotropic nuclear spin interactions; 3.1.1 Interaction Hamiltonians; 3.1.2 General formalism; 3.1.3 Strong magnetic fields; 3.1.4 Orientation dependence of the resonance frequency; 3.2 Wideline NMR; 3.2.1 Molecular order; 3.2.2 Molecular reorientation; 3.3 High-resolution solid-state NMR; 3.3.1 Cross-polarization; 3.3.2 High-power decoupling; 3.3.3 Sample spinning; 3.3.4 Multi-pulse methods 3.4 Echoes3.5 Relaxation; 3.5.1 Liquids; 3.5.2 Solids and slow motion; 3.5.3 Spin diffusion; 4 Transformation, convolution, and correlation; 4.1 Fourier transformation; 4.2 Convolution; 4.2.1 Linear systems; 4.2.2 Nonlinear systems; 4.2.3 The convolution theorem; 4.3 Correlation; 4.3.1 Linear system analysis; 4.3.2 Nonlinear cross-correlation; 4.3.3 The correlation theorem; 4.4 Further transformations; 4.4.1 Laplace transformation; 4.4.2 Hankel transformation; 4.4.3 Abel transformation; 4.4.4 z transformation; 4.4.5 Hadamard transformation; 4.4.6 Wavelet transformation 6.2 Fourier imaging6.2.1 The spin-warp technique; 6.2.2 Multi-slice imaging; 6.2.3 3D imaging; 6.2.4 Spectroscopic imaging; 6.2.5 Stimulated-echo imaging; 6.2.6 Imaging with CPMG echoes; 6.2.7 Gradient-echo imaging; 6.2.8 Ultra-fast imaging; 6.3 Imaging in the rotating frame; 6.4 Imaging with noise excitation; 7 Contrast; 7.1 Image contrast; 7.1.1 Optimization of contrast; 7.1.2 Magnetization filters: parameter weights; 7.1.3 Transfer functions and mobility filters; 7.1.4 Parameter contrast; 7.1.5 Contrast parameters; 7.1.6 NMR parameters and material properties; 7.2 Filters
Written for graduates, scientists and engineers, 'NMR Imaging of Materials' provides an introduction to a growing field. A large number of applications in basic research and quality control are now possible using NMR techniques.
9780191545078 (electronic bk.) 0191545074 (electronic bk.) 1280375140 9781280375149
Nuclear magnetic resonance.
Materials science.
Magnetic Resonance Spectroscopy
Résonance magnétique nucléaire.
Science des matériaux.
nuclear magnetic resonance.
SCIENCE--Physics--Magnetism.
Materials science.
Nuclear magnetic resonance.
Electronic books.
Electronic books.
QD96.N8 / B58 2000eb
538/.362