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Preface; Contents; About the Author; Abstract; 1 Introduction; 1.1 Importance of Nonlinear Optics; 1.1.1 Status of Nonlinear Optics in Modern Physics; 1.1.2 Status of Nonlinear Optics in Modern Optics; 1.1.3 Nonlinear Optics Is a Basis of Photonic Technology; 1.2 Physical Meaning of Nonlinear Optics; 1.2.1 Phenomenon Related with High-Order Polarization; 1.2.2 Nonlinear Response of Medium to the Optical Field; 1.2.3 Parameters of Medium Are Function of Optical Field; 1.3 Research Content of Nonlinear Optics; 1.3.1 Typical Nonlinear Optical Effects; 1.3.2 Two Kinds of Nonlinear Optical Effects
1.3.3 Nonlinear Optical Materials1.4 Development History of Nonlinear Optics; 1.4.1 Brief History of Nonlinear Optics; 1.4.2 Development Tendency of Nonlinear Optics; 1.5 Applications of Nonlinear Optics; 1.5.1 Application in Laser Technology; 1.5.2 Application in Information Technology; 1.5.3 Application in Material Technology; References; 2 Polarization Theory of Nonlinear Medium; 2.1 Wave Equations of Nonlinear Medium; 2.1.1 Maxwell's Equations for Nonlinear Medium; 2.1.2 Time-Domain Wave Equation in Anisotropic Nonlinear Medium
2.1.3 Time-Domain Wave Equation in Isotropic Nonlinear Medium2.1.4 Frequency-Domain Wave Equation in Anisotropic Nonlinear Medium; 2.1.5 Frequency-Domain Wave Equation in Isotopic Nonlinear Medium; 2.2 Polarization and Susceptibility of Nonlinear Medium; 2.2.1 Frequency-Domain Expressions of Polarization and Susceptibility; 2.2.2 Degeneration Factor of Polarization; 2.2.3 Symmetry of Susceptibility Tensor; 2.3 Real Part and Imaginary Part of Susceptibility; 2.3.1 Relation Between Real Part and Imaginary Part of Susceptibility (K-K Relation)
2.3.2 Physical Significance of Real Part and Imaginary Part of Susceptibility2.3.3 Relation Between Nonlinear Refractive Index and Nonlinear Absorption Coefficient; Appendix A: Derivation of K-K Relation [9, 10]; Appendix B: Two Systems of Units [11]; I. Fundamental Formula; II. Conversion of Two Unit Systems; References; 3 Optical Three-Wave Coupling Processes; 3.1 Three-Wave Coupled Equations; 3.1.1 Review of Second-Order Nonlinear Optics Effects in Isotopic Medium; 3.1.2 Approximate Description of Second-Order Nonlinear Optics Effect in Anisotropic Medium
3.1.3 Three-Wave Coupled Equations in Anisotropic Medium3.2 Optical Second-Harmonic Generation; 3.2.1 Small Signal Approximation; 3.2.2 High Fundamental Wave Consumption; 3.2.3 Phase Matching Technology; 3.2.4 Experimental Facilities for Second Harmonic Generation; 3.3 Optical Sum Frequency, Difference Frequency and Parameter Amplification; 3.3.1 Optical Sum Frequency and Frequency Up-Conversion; 3.3.2 Optical Difference Frequency and Frequency Down-Conversion; 3.3.3 Optical Parametric Amplification; 3.3.4 Comparison of Four Kinds of Three-Wave Mixing Processes and Experimental Facilities
1.3.3 Nonlinear Optical Materials1.4 Development History of Nonlinear Optics; 1.4.1 Brief History of Nonlinear Optics; 1.4.2 Development Tendency of Nonlinear Optics; 1.5 Applications of Nonlinear Optics; 1.5.1 Application in Laser Technology; 1.5.2 Application in Information Technology; 1.5.3 Application in Material Technology; References; 2 Polarization Theory of Nonlinear Medium; 2.1 Wave Equations of Nonlinear Medium; 2.1.1 Maxwell's Equations for Nonlinear Medium; 2.1.2 Time-Domain Wave Equation in Anisotropic Nonlinear Medium
2.1.3 Time-Domain Wave Equation in Isotropic Nonlinear Medium2.1.4 Frequency-Domain Wave Equation in Anisotropic Nonlinear Medium; 2.1.5 Frequency-Domain Wave Equation in Isotopic Nonlinear Medium; 2.2 Polarization and Susceptibility of Nonlinear Medium; 2.2.1 Frequency-Domain Expressions of Polarization and Susceptibility; 2.2.2 Degeneration Factor of Polarization; 2.2.3 Symmetry of Susceptibility Tensor; 2.3 Real Part and Imaginary Part of Susceptibility; 2.3.1 Relation Between Real Part and Imaginary Part of Susceptibility (K-K Relation)
2.3.2 Physical Significance of Real Part and Imaginary Part of Susceptibility2.3.3 Relation Between Nonlinear Refractive Index and Nonlinear Absorption Coefficient; Appendix A: Derivation of K-K Relation [9, 10]; Appendix B: Two Systems of Units [11]; I. Fundamental Formula; II. Conversion of Two Unit Systems; References; 3 Optical Three-Wave Coupling Processes; 3.1 Three-Wave Coupled Equations; 3.1.1 Review of Second-Order Nonlinear Optics Effects in Isotopic Medium; 3.1.2 Approximate Description of Second-Order Nonlinear Optics Effect in Anisotropic Medium
3.1.3 Three-Wave Coupled Equations in Anisotropic Medium3.2 Optical Second-Harmonic Generation; 3.2.1 Small Signal Approximation; 3.2.2 High Fundamental Wave Consumption; 3.2.3 Phase Matching Technology; 3.2.4 Experimental Facilities for Second Harmonic Generation; 3.3 Optical Sum Frequency, Difference Frequency and Parameter Amplification; 3.3.1 Optical Sum Frequency and Frequency Up-Conversion; 3.3.2 Optical Difference Frequency and Frequency Down-Conversion; 3.3.3 Optical Parametric Amplification; 3.3.4 Comparison of Four Kinds of Three-Wave Mixing Processes and Experimental Facilities