Solid State: Nuclear Methods

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Series: Methods in Experimental Physics 21

ISBN: 9780124759633, 0124759637

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Pages: ii-xviii, 1-504/523

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J.N. Mundy, S.J. Rothman, M.J. Fluss and L.C. Smedskjaer (Eds.)9780124759633, 0124759637

J. N. Mundy… et al.. (ed.) Solid state (AP, 1983)(ISBN 0124759637)

Table of contents :
Content:
Edited by
Pages ii-iii

Copyright page
Page iv

Contributors
Pages xi-xii

Preface
Pages xiii-xv
J.N. Mundy, S.J. Rothman, M.J. Fluss, L.C. Smedskjaer

Editors-in-Chief
Pages xvii-xviii

1.1 Introduction Original Research Article
Pages 1-10
J.N. Mundy, S.J. Rothman

1.2. Production of Radioisotopes Original Research Article
Pages 11-26
J.N. Mundy, S.J. Rothman

1.3. Handling of Radioisotopes Original Research Article
Pages 27-43
M. Robinet

1.4. Detection and Assay
Pages 44-73

Bibliography
Pages 74-75

2.1. Introduction Original Research Article
Page 77
L.C. Smedskjaer, M.J. Fluss

2.2. Basic Theory
Pages 78-87

2.3. Positron Studies and Metal Physics
Pages 87-95

2.4. Detection of Annihilation Radiation
Pages 95-139

2.5. instabilities (Detectors and Electronics)
Pages 139-143

2.6. Some Final Remarks
Pages 143-145

3.1. Static Properties of Defects Original Research Article
Pages 147-171
W. Schmatz

3.2. Dynamic Properties of Defects Original Research Article
Pages 172-193
R.M. Nicklow

3.3. Diffusion Studies Original Research Article
Pages 194-220
N. Wakabayashi

4.0. Introduction Original Research Article
Page 221
L.M. Howe, M.L. Swanson, J.A. Davies

4.1. Compositional Studies Original Research Article
Pages 222-274
N. Cue

4.2. Channeling Studies of Lattice Defects Original Research Article
Pages 275-359
L.M. Howe, M.L. Swanson, J.A. Davies

5.1. Introduction Original Research Article
Pages 361-373
David C. Ailion, William D. Ohlsen

5.2. Nuclear Magnetic Resonance Spectrometer Design
Pages 373-391

5.3. Applications of Nuclear Magnetic Resonance
Pages 391-404

5.4. Electron Paramagnetic Resonance
Pages 405-428

5.5. Additional Perturbations
Pages 428-430

5.6. Double-Resonance Techniques
Pages 430-438

6.1. Introduction Original Research Article
Pages 439-441
David C. Ailion

6.2. Conventional Relaxation Time Methods
Pages 441-453

6.3. Ultraslow Motion Techniques
Pages 453-469

6.4. Methods for Calibration and Other Auxiliary Experiments
Pages 469-472

6.5. Applications of Nuclear Magnetic Resonance Techniques to Motional Studies in Solids
Pages 472-482

Author Index
Pages 483-493

Subject Index
Pages 494-504

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