Electrooptics: Phenomena, Materials and ApplicationsElsevier, 2 dic 2012 - 345 páginas This comprehensive text provides an understanding of the physical phenomenon behind electrooptics. It describes in detail modern electrooptic materials and operative physical mechanisms, and devotes a full chapter tothe new materials engineering that is contributing to the development of low-dimensional systems. The book also reviews device applications in both bulk and waveguide technologies.
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Índice
1 | |
19 | |
Concepts Phenomena and Techniques | 49 |
Chapter 4 Electrooptics and Nonlinear Optics | 87 |
Chapter 5 Inorganic Electrooptic Materials | 127 |
Chapter 6 Organic Electrooptic Materials | 161 |
Chapter 7 Bulk Electrooptic Applications | 193 |
Chapter 8 Electrooptics and Integrated Optics | 219 |
Chapter 9 Semiconductor Quantum Wells and Superlattices | 251 |
Chapter 10 The Photorefractive Effect | 279 |
Chapter 11 Photorefractive Applications | 311 |
332 | |
Otras ediciones - Ver todo
Electrooptics: Phenomena, Materials and Applications F. Agulló-López,Jose Manuel Cabrera Vista previa restringida - 1994 |
Términos y frases comunes
absorption amplitude anisotropic Appl applied field axes BaTiO3 behaviour birefringence Bragg bulk carriers ceramics Chapter components conduction band configuration corresponding coupling density dependence dephasage dielectric constant diffraction diode direction efficiency electric field electroluminescence electronic electrooptic coefficients electrooptic devices electrooptic effect electrooptic response energy equation exciton ferroelectric field-induced film four-wave mixing frequency GaAs grating hologram holographic illustrated in Figure incident index change index ellipsoid induced input intensity isotropic laser layer Lett LiNbO3 linear liquid crystals medium method mirror mode modulators molecular molecules nematic Nonlinear Optics normal surface obtained optic axis optoelectronic orientation oscillator parameters perpendicular phase conjugator photon photorefractive crystal photorefractive effect photorefractive materials Phys plane wave PLZT Pockels Pockels effect polarizabilities polarization polymer properties quantum reference refractive index relations resonance second-harmonic second-order Section semiconductor structure substrate superlattices susceptibilities symmetry technique temperature tensor thickness transitions transparent transverse uniaxial values vector voltage waveguide wavelength wavevector