第一章介电体超晶格的研究 第二章准相位匹配概念的拓展和非线性光学新效应 2.1Harmoic Generations in an Optical Fibonacci Superlattice 2.2Second-harmonic Generation in a Fibonacci Optical Superlattice and the Dispersive Effect of the Refractive Index 2.3Quasi-Phase-Matched Third-Harmonic Generation in a Quasi-Periodic Optical Superlattice 2.4Experimental Realization of Second Harmonic Generation in a Fibonacci Optical Superlattice of LiTaO3 2.5Crucial Effects of Coupling Coefficients on Quasi-Phase-Matched Harmonic Generation in an Optical Superlattice 2.6Wave-Front Engineering by Huygens-Fresnel Principle for Nonlinear Optical Interactions in Domain Engineered Structures 2.7Conical Second Harmonic Generation in a Two-Dimensional X2 Photonic Crystal A Hexagonally Poled LiTaO3 Crystal 2.8Experimental Studies of Enhanced Raman Scattering from a Hexagonally Poled LiTaO3 Crystal 2.9Nonlinear Cerenkov Radiation in Nonlinear Photonic Crystal Waveguides 2.10Nonlinear Volume Holography for Wave-Front Engineering 2.11Nonlinear Talbot Effect 2.12Diffraction Interference Induced Superfocusing in Nonlinear Talbot Effect 2.13Cavity Phase Matching via an Optical Parametric Oscillator Consisting of a Dielectric Nonlinear Crystal Sheet 第三章克尔非线性光学超晶格与光子晶体 3.1Light Transmission in Two-dimensional Optical Superlattices 3.2Optical Bistability in a Two-Dimensional Nonlinear Superlattice 3.3Experimental Observations of Bistability and Instability in a Two-Dimensional Nonlinear Optical Superlattice 3.4Gap Shift and Bistability in Two-dimensional Nonlinear Optical Superlattices 3.5Optical Bistability in Two-dimensional Nonlinear Optical Superlattice with Two Incident Waves 3.6Three-dimensional Self-assembly of Metal Nanoparticles. Possible Photonic Crystal with a Complete Gap Below the Plasma Frequency 3.7Parity-time Electromagnetic Diodes in a Two-dimensional Nonreciprocal Photonic Crystal 3.8Nonreciprocal Light Propagation in a Silicon Photonic Circuit 3.9Experimental Demonstration of a Unidirectional Reflectionless Parity-time Metamaterial at Optical Frequencies 3.10Plasmonic Airy Beam Generated by In-Plane Diffraction 3.11Collimated Plasmon Beam: Nondiffracting versus Linearly Focused 3.12The Anomalous Infrared Transmission of Gold Films on Two-Dimensional Colloidal Crystals 3.13Localized and Delocalized Surface-plasmon-mediated Light Tunneling Through Monolayer Hexagonal-close-packed Metallic Nanoshells 3.14Experimental Observation of Sharp Cavity Plasmon Resonances in Dielectric-metal Core-shell Resonators 3.15Magnetic Field Enhancement at Optical Frequencies Through Diffraction Coupling of Magnetic Plasmon Resonances in Metamaterials 第四章声学超晶格和声子晶体 4.1Acoustic Superlattice of LiNbO3 Crystals and Its Applications to Bulk-wave Transducers for Ultrasonic Generation and Detection up to 800 MHz 4.2High-frequency Resonance in Acoustic Superlattice of LiNbO3 Crystals 4.3Ultrasonic Spectrum in Fibonacci Acoustic Superlattices 4.4Ultrasonic Excitation and Propagation in an Acoustic Superlattice 4.5High-frequency Resonance in Acoustic Superlattice of Periodically Poled LiTaO3 4.6Bulk Acoustic Wave Delay Line in Acoustic Superlattice 4.7Negative Refraction of Acoustic Waves in Two-dimensional Sonic Crystals 4.8Acoustic Backward-Wave Negative Refractions in the Second Band of a Sonic Crystal 4.9Negative Birefraction of Acoustic Waves in a Sonic Crystal 4.10Extraordinary Acoustic Transmission through a 1D Grating with Very Narrow Apertures 4.11Acoustic Surface Evanescent Wave and its Dominant Contribution to Extraordinary Acoustic Transmission and Collimation of Sound 4.12Tunable Unidirectional Sound Propagation through a Sonic-Crystal-Based Acoustic Diode 4.13Acoustic Asymmetric Transmission Based on Time-dependent Dynamical Scattering 4.14Acoustic Cloaking by a Near-zero-index Phononic Crystal 4.15Acoustic Phase-reconstruction near the Dirac Point of a Triangular Phononic Crystal 4.16Topologically Protected One-way Edge Mode in Networks of Acoustic Resonators with Circulating Air Flow
