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An introduction to electrooptic devices
An Introduction to Electrooptic Devices aims to present an introduction to the electrooptic effect and to summarize work on devices employing the electrooptic effect. The book provides the necessary background in classical crystal optics. The text then discusses topics including crystal symmetry, th...
| Clasificación: | Libro Electrónico |
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| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York,
Academic Press,
1974.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; An Introduction to Electrooptic Devices; Copyright Page; Dedication; Table of Contents; Preface; CHAPTER I. Crystal Optics; 1. Crystallography; 2. Tensor Properties; 3. Light Propagation in Anisotropic Crystals; References; CAPTER II. Nonlinear Dielectric Effects; 1. Introduction; 2. Electrooptic Effects; 3. Elastooptic Effects; 4. Nonlinear Optical Effects; References; CHAPTER III. Reprints; 1. Reviews; 1.1 Electrooptic light modulators; I. INTRODUCTION; II. ELECTROOPTIC BEHAVIOR OF CRYSTALS1; III. MATERIALS; IV. MODULATOR DESIGN; CONCLUSIONS; REFERENCES.
- 1.2 Modulators for optical communicationsINTRODUCTION; ELECTROOPTIC MODULATORS; ACOUSTOOPTIC AND MAGNETOOPTIC MODULATORS; CONCLUSIONS; ACKNOWLEDGMENT; REFERENCES; 1.3 Linear electrooptical materials; DEFINITIONS1; TABLES OF COEFFICIENTS; REFERENCES; 2. Characterization and Measurement of the Electrooptic Effect; 2.1 Effects of the Electrical and Magnetic Fields ; 1. EFFECTS WHICH ARE NOT REVERSED WITH THE FIELD DIRECTION; 2. REVERSIBLE ELECTROOPTICAL EFFECTS (FIRST OBSERVATIONS OF QUARTZ CRYSTALS); 3. GENERAL THEORY OF ELECTROOPTICAL EFFECTS REVERSIBLE WITH THE FIELD DIRECTION.
- 4. ELECTROOPTICAL PROPERTIES OF QUARTZ AND TOURMALINE5. SODIUM CHLORATE; 6. ROCHELLE SALT (PURE POTASSIUM-SODIUM TARTRATE); 7. ROTATION IN THE MAGNETIC FIELD.; BIBLIOGRAPHY; 2.2 The electro-optic effect in uniaxial crystals of the type X H2P04.1. Theoretical; INTRODUCTION; THEORETICAL; FIELD IN Z DIRECTION; FIELD IN X OR Y DIRECTIONS; CONCLUSIONS; 2.3 The electro-optic effect in uniaxial crystals of the dihydrogen phosphate type. III. Measurement of coefficients; INTRODUCTION; THEORY OF MEASUREMENTS; MEASUREMENT OF r4l; SENSITIVITY OF THE A.C. METHOD; ACKNOWLEDGMENT.
- 2.4 Electro-optical effect of zincblende1. INTRODUCTION; 2. THEORY; 3. MEASUREMENTS OF ELECTRO-OPTICAL COEFFICIENT IN ZINCBLENDE; 4. ZnS CRYSTAL LIGHT MODULATOR; 2.5 Microwave modulation of the electro-optic effect in KH2P04; 2.6 The strain-free electro-optic effect in single-crystal barium titanate; 2.7 Barium titanate light phase modulator; 2.8 Barium titanate light modulator. II; 2.9 High-frequency electro-optic coefficients of lithium niobate; 2.10 Electrooptic coefficients in calcium pyroniobate; Introduction; Principal Axis Coefficients; Skew Coefficients; Discussion; References.
- 2.11 Turner, Electro-optic and piezoelectric coefficients and refractive index of gallium phosphideI. INTRODUCTION; II. ELECTRO-OPTIC COEFFICIENT MEASUREMENTS; III. REFRACTIVE INDEX MEASUREMENTS; ACKNOWLEDGMENTS; APPENDIX; 2.12 Measurements of the electrooptic effect in CdS, ZnTe, and GaAs at 10.6 microns; INTRODUCTION; EXPERIMENT; RESULTS; CONCLUSIONS; ACKNOWLEDGMENT; REFERENCES; 3. Lumped Electrooptic Modulators; 3.1 Lithium tantalate light modulators; 1. INTRODUCTION; 2. PHYSICAL PROPERTIES OF LiTa03; 3. CHARACTERISTICS OF THE LiTaOg INTENSITY MODULATOR.