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Theory of Nonlinear Optical Susceptibilities
Microscopic Theory of Nonlinear Susceptibilities
Conclusion Nonlinear Spectroscopy
16 other sections not shown
additional applied approach approximation assumed atoms beam becomes Bloembergen bond calculation cell charge Class coefficients components considered constant contribution corrections corresponding crystal defined density dependence derived described detailed determined dipole direction discussion dispersion effect electric field electronic elements energy equations et al expansion experiment experimental expression Flytzanis frequency function fundamental give given important incident independent induced intensity interaction introduced laser length Lett light linear macroscopic measured medium method mixing mode molecules neglected nonlinear nonlinear optical normal observed obtained optical parameter perturbation phase phase-matching photon Phys polarizability polarization position present problem properties pulse pump quantities Raman region relation resonant respectively scattering second harmonic second-order shown shows SMBP solid structure susceptibilities symmetry Table tensor theory third-order transitions two-photon absorption unit values vector wave