Mo ssbauer effect : principles and applications /
Mo ssbauer Effect: Principles and Applications focuses on the processes, methodologies, and reactions involved in Mo ssbauer effect, as well as atomic motion, use of the effect in studying hyperfine structures, quadropole coupling, and isomer shift. The manuscript first discusses resonant absorption...
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Main Authors: | |
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Corporate Authors: | |
Published: |
Academic Press,
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Publisher Address: | New York : |
Publication Dates: | [1964] |
Literature type: | eBook |
Language: | English |
Series: |
Academic paperbacks. Physics
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Subjects: | |
Online Access: |
http://www.sciencedirect.com/science/book/9781483228563 |
Summary: |
Mo ssbauer Effect: Principles and Applications focuses on the processes, methodologies, and reactions involved in Mo ssbauer effect, as well as atomic motion, use of the effect in studying hyperfine structures, quadropole coupling, and isomer shift. The manuscript first discusses resonant absorption, emission of gamma rays by nuclei, width of gamma-ray spectrum, and emission from bound atoms. The text then surveys counting, modulation, and low-temperature techniques. The publication offers information on relativity and the Mo ssbauer effect, atomic motion, quadropole coupling, and magnetic hype. |
Carrier Form: | 1 online resource (viii, 116 pages) : illustrations. |
Bibliography: | Includes bibliographical references. |
ISBN: |
9781483275031 1483275035 |
Index Number: | QC490 |
CLC: | O436 |
Contents: |
Front Cover; Mo ssbauer Effect: Principles and Applications; Copyright Page ; Preface; Table of Contents; Chapter 1. Introduction; Resonant Absorption; Emission of Gamma Rays by Nuclei; Mo ssbauer's Experiment: Emission from Bound Atoms; Why the Mo ssbauer Effect Is Valuable; Width of the Gamma-Ray Spectrum; General References; Chapter 2. Instrumentation; Counting Techniques; Modulation Techniques; Low-Temperature Techniques; Chapter 3. Relativity and the Mo ssbauer Effect; Gravitational Red Shift; Thermal Red Shift and the ""Twin Paradox""; Chapter 4. Atomic Motion; Introduction to Chapters V-X. The Use of the Mo ssbauer Effect in the Study of Hyperfine StructureChapter 5. Isomer Shift; Chapter 6. Quadrupole Coupling; Chapter 7. Magnetic Hyperfi ne Structure; Combined Magnetic and Electric Hyperfine Coupling; Chapter 8. The Magnetism of Metals and Alloys; Rare-Earth Magnetism; Chapter 9. Chemical Applications; Isomer Shift; Quadrupole Splitting; Magnetic Dipole Splitting; Detection of Dilute Impurities or Short-Lived Charge States; Chapter 10. Linewidth and Line Shape; Subject Index. |