第五章离子型声子晶体与超构材料 5.1Optical Properties of an Ionic-Type Phononic Crystal 5.2New Type of Polariton in a Piezoelectric Superlattice 5.3Piezoelectric-Induced Polariton Coupling in a Superlattice 5.4Phonon-polaritons in Quasiperiodic Piezoelectric Superlattices 5.5Coupling of Electromagnetic Waves and Superlattice Vibrations in a Piezomagnetic Superlattice: Creation of a Polariton Through the Piezomagnetic Effect 5.6Coupled Phonon Polaritons in a Piezoelectric-piezomagnetic Superlattice 5.7Mimicing Surface Phonon Polaritons in Microwave Band Based on Ionic-type Phononic Crystal 5.8Magnetic Plasmon Hybridization and Optical Activity at Optical Frequencies in Metallic Nanostructures 5.9Stereometamaterials 5.10Magnetic Plasmon Propagation Along a Chain of Connected Subwavelength Resonators at Infrared Frequencies 5.11Long-Wavelength Optical Properties of a Plasmonic Crystal 第六章准相位匹配量子光学与光子芯片 6.1Transforming Spatial Entanglement Using a Domain-Engineering Technique 6.2Compact Engineering of Path-Entangled Sources from a Monolithic Quadratic Nonlinear Photonic Crystal 6.3On-chip Steering of Entangled Photons in Nonlinear Photonic Crystals 6.4Lensless Imaging by Entangled Photons from Quadratic Nonlinear Photonic Crystals 6.5Observation of Quantum Talbot Effect from a Domain-engineered Nonlinear Photonic Crystal 6.6Mode-locked Biphoton Generation by Concurrent Quasi-phase-matching 6.7Generation of NOON State with Orbital Angular Momentum in a Twisted Nonlinear Photonic Crystal 6.8Tailoring Entanglement Through Domain Engineering in a Lithium Niobate Waveguide 6.9On-Chip Generation and Manipulation of Entangled Photons Based on Reconfigurable Lithium-Niobate Waveguide Circuits 6.10Generation of Three-mode Continuous-variable Entanglement by Cascaded Nonlinear Interactions in a Quasiperiodic Superlattice 第七章介电体超晶格与畴工程学 7.1The Growth Striations and Ferroelectric Domain Structures in Czochralski-grown LiNbO3 Single Crystals 7.2Growth of Optical Superlattice LiNbO3 with Different Modulating Periods and Its Applications in Second-harmonic Generation 7.3Growth of Nd3+-doped LiNbO3 Optical Superlattice Crystals and Its Potential Applications in Self-frequency Doubling 7.4Fabrication of Acoustic Superlattice LiNbO3 by Pulsed Current Induction and Its Application for Crossed Field Ultrasonic Excitation 7.5LiTaO3 Crystal Periodically Poled by Applying an External Pulsed Field 7.6Poling Quality Evaluation of Optical Superlattice Using 2D Fourier Transform Method 7.7Frequency Self-doubling Optical Parametric Amplification. Noncollinear Red-green-blue Lightsource Generation based on a Hexagonally Poled Lithium Tantalate 7.8Direct Observation of Ferroelectric Domains in LiTaO3 Using Environmental Scanning Electron Microscopy 7.9Nondestructive Imaging of Dielectric-Constant Profiles and Ferroelectric Domains with a Scanning-Tip Microwave Near-Field Microscope 第八章光学超晶格的应用研究 8.1Efficient Continuous Wave Blue Light Generation in Optical Superlattice LiNbO3 by Direct Frequency Doubling a 978 nm InGaAs Diode Laser 8.2Femtosecond Violet Light Generation by Quasi-phase-matched Frequency Doubling in Optical Superlattice LiNbO3 8.3Visible Dual-wavelength Light Generation in Optical Superlattice Er: LiNbO3 through Upconversion and Quasi-phase-matched Frequency Doubling 8.4Frequency Tuning of Optical Parametric Generator in Periodically Poled Optical Superlattice LiNbO3 by Electro-optic Effect 8.5Electro-optic Effect of Periodically Poled Optical Superlattice LiNbO3 and Its Applications 8.6High-power Red-green-blue Laser Light Source Based on Intermittent Oscillating Dual-wavelength Nd.YAG Laser with a Cascaded LiTaO3 Superlattice 8.7Diode-pumped 1988-nm Tm.YAP Laser Mode-locked by Intracavity Second-harmonic Generation in Periodically Poled LiNbO3 8.8Efficiency-enhanced Optical Parametric Down Conversion for Mid-infrared Generation on a Tandem Periodically Poled MgO doped Stoichiometric Lithium Tantalate Chip 8.9Polarization-free Second-order Nonlinear Frequency Conversion Using the Optical Superlattice 8.10Polarization Independent Quasi-phase-matched Sum Frequency Generation for Single Photon Detection 8.11DFB Semiconductor Lasers based on Reconstruction-equivalent-chirp Technology 8.12High Channel Count and High Precision Channel Spacing Multi-wavelength 第九章总结与展望 附录最新的重要成果收录
