Solid State Physics
2nd Edition
Published on 5. September 1974
781 pages
978-0-08-085989-7 (ISBN)
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Solid State Physics
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R.V. Coleman
Solid State Physics
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05/1974
Academic Press
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Content
- Front Cover
- Solid State Physics, Volume 11
- Copyright Page
- CONTENTS
- Contributors
- Foreword
- Preface
- Chapter 1. Experimental Methods of Measuring High-Field Magnetoresistance in Metals
- 1.1. Introduction
- 1.2. Sample Preparation and Evaluation
- 1.3. Sample Holders
- 1.4. Magnetic Fields and Low Temperatures
- 1.5. Measurement Techniques
- 1.6. Data Collection and Processing
- 1.7. Special Topics
- Chapter 2. Experimental Methods for the de Haas-van Alphen Effect
- 2.1. The de Haas-van Alphen Effect
- 2.2. dHvA Expressions
- 2.3. Field Modulation Technique
- 2.4. Examples of dHvA Experiments
- 2.5. Summary
- Chapter 3. Experimental Techniques for Visible and Ultraviolet Photoemission
- 3.1. Introduction
- 3.2. Photoelectric Quantum Yield
- 3.3. Measurement of Energy Distribution Curves
- 3.4. Sample Preparation
- 3.5 High Vacuum Photoemission Chambers
- 3.6. Monochromator and Light Sources
- 3.7. Directions for Future Research
- Chapter 4. Experiments on Electron Tunneling in Solids
- 4.1. Introduction
- 4.2. Tunneling in Superconductors
- 4.3. Normal-Metal Tunneling
- 4.4. Semiconductors in Tunnel Junctions
- 4.5. Special Topics on Experimental Techniques
- Chapter 5. Experiments Using Weakly Linked Superconductors
- 5.1. Introduction
- 5.2. Experiments That Study the Josephson Effects
- 5.3. Characteristics of Various Types of Weakly Linked Superconductors
- 5.4. Applications of Weakly Linked Superconductors
- Chapter 6. Experimental Methods in Mössbauer Spectroscopy
- 6.1. Introduction to Mössbauer Spectroscopy
- 6.2. Mössbauer Spectrometers
- 6.3. Auxiliary Equipment
- Appendix A. Data Analysis
- Appendix B. Useful Graphs
- Bibliography
- Chapter 7. Ultrasonic Studies of the Properties of Solids
- 7.1. Introduction
- 7.2. Ultrasonic Waves in Solids
- 7.3. Experimental Techniques
- 7.4. Applications of Ultrasonic Waves to Measuring Physical Properties
- Appendix A. Thermoelasticity Theory and Related Elastic Coefficients
- Chapter 8. The Use of Ions in the Study of Quantum Liquids
- 8.1. Review of the Structure of Ions in Liquid Helium
- 8.2. Production of Ions in Liquid Helium
- 8.3. Methods for Measurement of the Ionic Drift Velocity
- 8.4. The Use of Ion Mobility Measurements in the Study of Microscopic Excitations in Liquid Helium
- 8.5. Ion Techniques for Studying Macroscopic Quantum Excitations
- 8.6. Studies of Superfluid Surfaces and Films
- Chapter 9. Thermometry at Ultralow Temperatures
- 9.1. Introduction
- 9.2. Resistance Thermometers
- 9.3. Susceptibility Thermometers
- 9.4. Miscellaneous Thermometers
- 9.5. Conclusions
- Chapter 10. Superconducting Microwave Resonators
- 10.1. Introduction
- 10.2. Microwave Properties of Superconductors
- 10.3. Methods of Fabricating High-Q Superconducting Resonators and Measuring Their Properties
- 10.4. Brief Review of Experiments Using Superconducting Resonators
- Chapter 11. Superconducting Device Technology
- 11.1. Superconducting Magnets
- 11.2. Superconducting Shielding
- Chapter 12. Experimental Methods in the Preparation and Measurement of Thin Films
- 12.1. Preparation of Thin Films
- 12.2. Thin Film Measurements
- Chapter 13. The Observation of Magnetic Domains
- 13.1. Introduction
- 13.2. Principles Governing Domain Formations
- 13.3. Survey of Methods
- 13.4. Powder Pattern (Colloid) Technique
- 13.5. Specialized Techniques and Pattern Formation
- 13.6. Optical and Magnetooptical Properties
- 13.7. Lorentz (Electron) Microscopy
- 13.8. Scanning Electron Microscopy
- 13.9. X-Ray Method
- 13.10. Methods for Antiferromagnetic Domains
- 13.11. Further Methods
- Author Index
- Subject Index
