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Front Cover; Physical Acoustics: Principles and Methods; Copyright Page; Table of Contents; Contributors; Preface; Chapter 1. Spin-Phonon Spectrometer; I. Introduction; II. Spin-Phonon Interaction; III. Optical Detection of the Spin Population; IV. Divalent Thulium; V. Detection of Monochromatic Acoustic Waves; VI. Phonon Generation by Spins; VII. Heaters as Broad-Band Phonon Sources; VIII. Phonon Interference in Thin Liquid Helium Films; Appendix. Derivation of Diffusion Equation; References
Chapter 2. Landau Quantum Oscillations of the Velocity of Sound and the Strain Dependence of the Fermi SurfaceI. Introduction; II. Theory of Landau Quantum Effects; III. Experimental Methods; IV. Experimental Results; V. Comparison with Existing Data; VI. Summary; References; Chapter 3. High-Frequency Continuous Wave Ultrasonics; I. Introduction; II. Theory: Propagating Wave Model; III. cw Ultrasonic Resonator Assemblies and Probes; IV. cw Spectrometer Systems; V. Sampled-cw Technique and Spectrometers; VI. Acoustic Mössbauer Effect Spectrometer; VII. Applications
Appendix. Transmission-Line Equivalent Circuit ofComposite ResonatorReferences; Chapter 4. Ultrasonic Measurements at Very High Pressures; I. Introduction; II. Review of Ultrasonic Measurements at High Pressures; III. Ultrasonic Measurements in Piston and Die Systems; IV. Summary; References; Chapter 5. Third-Order Elastic Constants and Thermal Equilibrium Properties of Solids; I. Introduction; II. Thermodynamics of Imperfect Crystals; III. Dislocations; IV. Point Defects; V. Phonons; References; Chapter 6. Interaction of Sound Waves with Thermal Phonons in Dielectric Crystals
I. IntroductionII. Landau-Rumer Theory; III. Boltzmann Equation Method; IV. Comparison of Approaches; V. Attenuation and Velocity for Ωτ«1; VI. Attenuation and Velocity for Ω τ»1; VII. Miscellaneous Problems; Appendix; Symbols; References; Chapter 7. Internal Friction at Low Frequencies Due to Dislocations: Applications to Metals and Rock Mechanics; I. Introduction; II. Measurement of Internal Friction for Three Rocks; III. Grain Boundary Internal Friction and Dislocation Parameters; IV. Derivation of the Low- and High-Frequency Components ofDislocation Attenuation
V. Application of Theory to Alloys and Impure MetalsVI. Application of Dislocation Theory to the Internal Friction in Moonand Earth Rocks; References; Author Index; Subject Index; Contents of Previous Volumes