Nonlinear optical properties of materials: 10-11 August 1989, San Diego, California
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NONLINEAR OPTICAL SEMICONDUCTOR MATERIALS
NONLINEAR OPTICAL FIBERS AND WAVEGUIDES
absorption coefficient all-optical aperture Appl applied field band gap beam birefringence calculated carrier coupling Cr-doped crystal density dependence dephasing detuning device dielectric diffraction efficiency domain doped electric field electro-optic electro-optic coefficients electron energy equation exciton exciton resonance experimental ferroelectric fiber fibre Figure films four-wave mixing frequency frequency-difference holograms function GaAs glass grating hetero n-i-p-i HgTe holograms illumination increase index change input intensity interaction ionization kV/cm laser layers length Lett light linear lithium niobate magnitude materials measurements mode nonlinear optical nonlinear refraction nonlinear susceptibility obtained off-Bragg Optical Fibres optical nonlinearities parameters peak periodically-poled phase conjugate phase-matching photon photorefractive effect Phys polarization probe properties pulse pump quantum quasi-phase-matched recording refractive index response room temperature sample saturation second-harmonic semiconductors shown in Fig space charge space charge field spatial spectra switching technique thermal thick transmission transverse vector wave waveguide wavelength Z-scan