Novel optical materials and applications
This research monograph explores novel optical materials and their unique physical, optical, and electronic properties, and the role they play in the newest developments in optical communication, signal, and image processing application and the Information Superhighway. Leading authorities present a detailed treatment of optical materials. The book covers semiconductor quantized structures, polymers, liquid crystals, composite materials, nonlinear crystals, and more.
57 pages matching energy in this book
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A Promising Approach to Nonlinear Optical
Nonclassical Light Production from Atoms and Nonlinear
UltrashortPulse Second Harmonic Generation
6 other sections not shown
absorption ADQW amplified amplitude Appl applications atomic bandwidth cascading Chem chirality coefficient coherence length components conjugation conversion efficiency corresponding coupling density devices electric field energy equations exciton experimental Faraday rotation fiber array frequency function fundamental pulse geometry group-velocity mismatch gyrotropy IEEE input intensity interaction length intersubband intrapulse group-velocity dispersion kV/cm laser Lett linear liquid crystal liquid crystal fiber magnetic matching modulation molecular molecules nematic nonlinear material nonlinear optical nonlinear phase shift obtained optical limiting organic orientation oscillator output parameters phase-conjugate phase-matching photoinduced photon photorefractive Phys plane pm/V polarization polymers propagation properties pulsewidth pump Quantum Electron quasi-phase-matched Rabi frequency refractive index resonant sample second harmonic pulse semiconductor shown in Figure signal beam solitary waves solitons spatial spectral phase technique temperature thermal threshold transform-limited pulse transition values wavefunctions waveguide wavelength wavevector Zyss