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Front Cover; Physical Acoustics: Principles and Methods; Copyright Page; Table of Contents; CONTRIBUTORS; PREFACE; Chapter 1. Difference in Electron Drag Stresses on Dislocation Motion in the Normal and the Superconducting States for Type I and Type II Superconductors; I. Introduction; II. Experimental; III. Theory; IV. Discussion; V. Summary; Appendix; References; Chapter 2. Elastic Wave Propagation in Thin Layers; I. Introduction; II. Wave Equation and Boundary Conditions; III. Isotropic Problem; IV. Crystal Symmetry; V. Anisotropic Examples; References
Chapter 3. Solid State Control Elements Operating on Piezoelectric PrinciplesI. Introduction; II. Basic Phenomenological Theory; III. Electrostatic Devices; IV. The Bimorph Actuator in a Control Loop; V. Derivation of Transfer Function of Cantilever Bimorph Actuator; VI. Psiezoelectric Stepping Motor in Control Loop; VII. A Laser Beam Deflector System; VIII. Future Development; References; Chapter 4. Monolithic Crystal Filters; I. Introduction; II. Thickness Vibrations in Thin Piezoelectric Plates; III. Equivalent Electrical Networks for Thickness Vibrations in Thin Piezoelectric Plates
IV. Process TechnologyV. MCF Applications; Acknowledgments; References; Chapter 5. Design and Technology of Piezoelectric Transducers for Frequencies Above 100 MHz; I. Introduction; II. The Equivalent Circuit of a Transducer and its Terminal Parameters; III. Mason's Equivalent Circuit; IV. The Transducer with a Single Piezoelectric Layer; V. Transducers with Multiple Piezoelectric Layers and Interlaced Comb Surface Wave Transducers; VI. Materials; VII. Technological Methods; VIII. Discussion and Conclusions; Acknowledgments; References; Author Index; Subject Index