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介電體超晶格:上 版權信息
- ISBN:9787305178405
- 條形碼:9787305178405 ; 978-7-305-17840-5
- 裝幀:暫無
- 冊數:暫無
- 重量:暫無
- 所屬分類:>>
介電體超晶格:上 內容簡介
本書主要內容包括: 介電體超晶格的研究、準相位匹配概念的拓展和非線性光學新效應、克爾非線性光學超晶格與光子晶體、聲學超晶格和聲子晶體等。。
介電體超晶格:上 目錄
**章 介電體超晶格的研究
第二章 準相位匹配概念的拓展和非線性光學新效應
2.1 Harmoic Generations in an Optical Fibonacci Superlattice
2.2 Second-harmonic Generation in a Fibonacci Optical Superlattice and the Dispersive
Effect of the Refractive Index
2.3 Quasi-Phase-Matched Third-Harmonic Generation in a Quasi-Periodic Optical Superlattice
2.4 Experimental Realization of Second Harmonic Generation in a Fibonacci Optical Superlattice of LiTaO3
2.5 Crucial Effects of Coupling Coefficients on Quasi-Phase-Matched Harmonic Generation
in an Optical Superlattice
2.6 Wave-Front Engineering by Huygens-Fresnel Principle for Nonlinear Optical Interactions in
Domain Engineered Structures
2.7 Conical Second Harmonic Generation in a Two-Dimensional X2 Photonic Crystal
A Hexagonally Poled LiTaO3 Crystal
2.8 Experimental Studies of Enhanced Raman Scattering from a Hexagonally Poled LiTaO3 Crystal
2.9 Nonlinear Cerenkov Radiation in Nonlinear Photonic Crystal Waveguides
2.10 Nonlinear Volume Holography for Wave-Front Engineering
2.11 Nonlinear Talbot Effect
2.12 Diffraction Interference Induced Superfocusing in Nonlinear Talbot Effect
2.13 Cavity Phase Matching via an Optical Parametric Oscillator Consisting of
a Dielectric Nonlinear Crystal Sheet
第三章 克爾非線性光學超晶格與光子晶體
3.1 Light Transmission in Two-dimensional Optical Superlattices
3.2 Optical Bistability in a Two-Dimensional Nonlinear Superlattice
3.3 Experimental Observations of Bistability and Instability in a Two-Dimensional Nonlinear Optical Superlattice
3.4 Gap Shift and Bistability in Two-dimensional Nonlinear Optical Superlattices
3.5 Optical Bistability in Two-dimensional Nonlinear Optical Superlattice with Two Incident Waves
3.6 Three-dimensional Self-assembly of Metal Nanoparticles. Possible Photonic Crystal with a Complete
Gap Below the Plasma Frequency
3.7 Parity-time Electromagnetic Diodes in a Two-dimensional Nonreciprocal Photonic Crystal
3.8 Nonreciprocal Light Propagation in a Silicon Photonic Circuit
3.9 Experimental Demonstration of a Unidirectional Reflectionless Parity-time Metamaterial at Optical Frequencies
3.10 Plasmonic Airy Beam Generated by In-Plane Diffraction
3.11 Collimated Plasmon Beam: Nondiffracting versus Linearly Focused
3.12 The Anomalous Infrared Transmission of Gold Films on Two-Dimensional Colloidal Crystals
3.13 Localized and Delocalized Surface-plasmon-mediated Light Tunneling Through Monolayer
Hexagonal-close-packed Metallic Nanoshells
3.14 Experimental Observation of Sharp Cavity Plasmon Resonances in Dielectric-metal Core-shell Resonators
3.15 Magnetic Field Enhancement at Optical Frequencies Through Diffraction Coupling of Magnetic
Plasmon Resonances in Metamaterials
第四章 聲學超晶格和聲子晶體
4.1 Acoustic Superlattice of LiNbO3 Crystals and Its Applications to Bulk-wave Transducers for Ultrasonic
Generation and Detection up to 800 MHz
4.2 High-frequency Resonance in Acoustic Superlattice of LiNbO3 Crystals
4.3 Ultrasonic Spectrum in Fibonacci Acoustic Superlattices
4.4 Ultrasonic Excitation and Propagation in an Acoustic Superlattice
4.5 High-frequency Resonance in Acoustic Superlattice of Periodically Poled LiTaO3
4.6 Bulk Acoustic Wave Delay Line in Acoustic Superlattice
4.7 Negative Refraction of Acoustic Waves in Two-dimensional Sonic Crystals
4.8 Acoustic Backward-Wave Negative Refractions in the Second Band of a Sonic Crystal
4.9 Negative Birefraction of Acoustic Waves in a Sonic Crystal
4.10 Extraordinary Acoustic Transmission through a 1D Grating with Very Narrow Apertures
4.11 Acoustic Surface Evanescent Wave and its Dominant Contribution to Extraordinary Acoustic
Transmission and Collimation of Sound
4.12 Tunable Unidirectional Sound Propagation through a Sonic-Crystal-Based Acoustic Diode
4.13 Acoustic Asymmetric Transmission Based on Time-dependent Dynamical Scattering
4.14 Acoustic Cloaking by a Near-zero-index Phononic Crystal
4.15 Acoustic Phase-reconstruction near the Dirac Point of a Triangular Phononic Crystal
4.16 Topologically Protected One-way Edge Mode in Networks of Acoustic Resonators with Circulating Air Flow
第二章 準相位匹配概念的拓展和非線性光學新效應
2.1 Harmoic Generations in an Optical Fibonacci Superlattice
2.2 Second-harmonic Generation in a Fibonacci Optical Superlattice and the Dispersive
Effect of the Refractive Index
2.3 Quasi-Phase-Matched Third-Harmonic Generation in a Quasi-Periodic Optical Superlattice
2.4 Experimental Realization of Second Harmonic Generation in a Fibonacci Optical Superlattice of LiTaO3
2.5 Crucial Effects of Coupling Coefficients on Quasi-Phase-Matched Harmonic Generation
in an Optical Superlattice
2.6 Wave-Front Engineering by Huygens-Fresnel Principle for Nonlinear Optical Interactions in
Domain Engineered Structures
2.7 Conical Second Harmonic Generation in a Two-Dimensional X2 Photonic Crystal
A Hexagonally Poled LiTaO3 Crystal
2.8 Experimental Studies of Enhanced Raman Scattering from a Hexagonally Poled LiTaO3 Crystal
2.9 Nonlinear Cerenkov Radiation in Nonlinear Photonic Crystal Waveguides
2.10 Nonlinear Volume Holography for Wave-Front Engineering
2.11 Nonlinear Talbot Effect
2.12 Diffraction Interference Induced Superfocusing in Nonlinear Talbot Effect
2.13 Cavity Phase Matching via an Optical Parametric Oscillator Consisting of
a Dielectric Nonlinear Crystal Sheet
第三章 克爾非線性光學超晶格與光子晶體
3.1 Light Transmission in Two-dimensional Optical Superlattices
3.2 Optical Bistability in a Two-Dimensional Nonlinear Superlattice
3.3 Experimental Observations of Bistability and Instability in a Two-Dimensional Nonlinear Optical Superlattice
3.4 Gap Shift and Bistability in Two-dimensional Nonlinear Optical Superlattices
3.5 Optical Bistability in Two-dimensional Nonlinear Optical Superlattice with Two Incident Waves
3.6 Three-dimensional Self-assembly of Metal Nanoparticles. Possible Photonic Crystal with a Complete
Gap Below the Plasma Frequency
3.7 Parity-time Electromagnetic Diodes in a Two-dimensional Nonreciprocal Photonic Crystal
3.8 Nonreciprocal Light Propagation in a Silicon Photonic Circuit
3.9 Experimental Demonstration of a Unidirectional Reflectionless Parity-time Metamaterial at Optical Frequencies
3.10 Plasmonic Airy Beam Generated by In-Plane Diffraction
3.11 Collimated Plasmon Beam: Nondiffracting versus Linearly Focused
3.12 The Anomalous Infrared Transmission of Gold Films on Two-Dimensional Colloidal Crystals
3.13 Localized and Delocalized Surface-plasmon-mediated Light Tunneling Through Monolayer
Hexagonal-close-packed Metallic Nanoshells
3.14 Experimental Observation of Sharp Cavity Plasmon Resonances in Dielectric-metal Core-shell Resonators
3.15 Magnetic Field Enhancement at Optical Frequencies Through Diffraction Coupling of Magnetic
Plasmon Resonances in Metamaterials
第四章 聲學超晶格和聲子晶體
4.1 Acoustic Superlattice of LiNbO3 Crystals and Its Applications to Bulk-wave Transducers for Ultrasonic
Generation and Detection up to 800 MHz
4.2 High-frequency Resonance in Acoustic Superlattice of LiNbO3 Crystals
4.3 Ultrasonic Spectrum in Fibonacci Acoustic Superlattices
4.4 Ultrasonic Excitation and Propagation in an Acoustic Superlattice
4.5 High-frequency Resonance in Acoustic Superlattice of Periodically Poled LiTaO3
4.6 Bulk Acoustic Wave Delay Line in Acoustic Superlattice
4.7 Negative Refraction of Acoustic Waves in Two-dimensional Sonic Crystals
4.8 Acoustic Backward-Wave Negative Refractions in the Second Band of a Sonic Crystal
4.9 Negative Birefraction of Acoustic Waves in a Sonic Crystal
4.10 Extraordinary Acoustic Transmission through a 1D Grating with Very Narrow Apertures
4.11 Acoustic Surface Evanescent Wave and its Dominant Contribution to Extraordinary Acoustic
Transmission and Collimation of Sound
4.12 Tunable Unidirectional Sound Propagation through a Sonic-Crystal-Based Acoustic Diode
4.13 Acoustic Asymmetric Transmission Based on Time-dependent Dynamical Scattering
4.14 Acoustic Cloaking by a Near-zero-index Phononic Crystal
4.15 Acoustic Phase-reconstruction near the Dirac Point of a Triangular Phononic Crystal
4.16 Topologically Protected One-way Edge Mode in Networks of Acoustic Resonators with Circulating Air Flow
展開全部
介電體超晶格:上 作者簡介
朱永元,功能材料學家,南京大學教授。王振林,南京大學物理學院教授。陸延青,南京大學物理學院教授。陳延峰,南京大學物理學院教授。祝世寧,功能材料學家,南京大學教授,中科院院士。
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