介电体超晶格(上) 朱永元,王振林,陈延峰,陆延青,祝世宁 下载 mobi epub pdf 电子书 2024

基本信息

书名:介电体超晶格(上)

定价：198.00元

售价：150.5元,便宜47.5元,折扣76

作者:朱永元,王振林,陈延峰,陆延青,祝世宁

出版社：南京大学出版社

出版日期：2017-03-01

ISBN：9787305178405

字数：

页码：454

版次：1

装帧：精装

开本：16开

商品重量：0.4kg

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内容提要

介电体超晶格是一种在光电子学、声电子学、量子信息学领域有重大应用前景的新型功能材料，是南京大学闵乃本院士及其团队通过20多年系统深入研究开拓的一个新的研究方向。从基本原理的提出、到实验验证、到原型器件，直到实用化的仪器研制，形成了系统性的研究成果，并于2006年获得了连续空缺多年的国家自然科学一等奖。项目成果共汇总成上下两册，《介电体超晶格（上）》为上册，共分为四个专题，《介电体超晶格（上）》的出版对我国科学技术的发展具有重大价值。

目录

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
2．1 Harmoic Generations iaOptical Fibonacci Superlattice
2．2 Second-harmonic Generatioia Fibonacci Optical Superlattice and the Dispersive
Effect of the Refractive Index
2．3 Quasi-Phase-Matched Third-Harmonic Generatioia Quasi-Periodic Optical Superlattice
2．4 Experimental Realizatioof Second Harmonic Generatioia Fibonacci Optical Superlattice of LiTaO3
2．5 Crucial Effects of Coupling Coefficients oQuasi-Phase-Matched Harmonic Generation
iaOptical Superlattice
2．6 Wave-Front Engineering by Huygens-Fresnel Principle for Nonlinear Optical Interactions in
DomaiEngineered Structures
2．7 Conical Second Harmonic Generatioia Two-Dimensional X2 Photonic Crystal
A Hexagonally Poled LiTaO3 Crystal
2．8 Experimental Studies of Enhanced RamaScattering from a Hexagonally Poled LiTaO3 Crystal
2．9 Nonlinear Cerenkov RadiatioiNonlinear Photonic Crystal Waveguides
2．10 Nonlinear Volume Holography for Wave-Front Engineering
2．11 Nonlinear Talbot Effect
2．12 DiffractioInterference Induced Superfocusing iNonlinear Talbot Effect
2．13 Cavity Phase Matching via aOptical 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
3．1 Light TransmissioiTwo-dimensional Optical Superlattices
3．2 Optical Bistability ia Two-Dimensional Nonlinear Superlattice
3．3 Experimental Observations of Bistability and Instability ia Two-Dimensional Nonlinear Optical Superlattice
3．4 Gap Shift and Bistability iTwo-dimensional Nonlinear Optical Superlattices
3．5 Optical Bistability iTwo-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 Electromagic Diodes ia Two-dimensional Nonreciprocal Photonic Crystal
3．8 Nonreciprocal Light Propagatioia SilicoPhotonic Circuit
3．9 Experimental Demonstratioof a Unidirectional Reflectionless Parity-time Metamaterial at Optical Frequencies
3．10 Plasmonic Airy Beam Generated by In-Plane Diffraction
3．11 Collimated PlasmoBeam： Nondiffracting versus Linearly Focused
3．12 The Anomalous Infrared Transmissioof Gold Films oTwo-Dimensional Colloidal Crystals
3．13 Localized and Delocalized Surface-plasmon-mediated Light Tunneling Through Monolayer
Hexagonal-close-packed Metallic Nanoshells
3．14 Experimental Observatioof Sharp Cavity PlasmoResonances iDielectric-metal Core-shell Resonators
3．15 Magic Field Enhancement at Optical Frequencies Through DiffractioCoupling of Magic
PlasmoResonances iMetamaterials

第四章 声学超晶格和声子晶体
4．1 Acoustic Superlattice of LiNbO3 Crystals and Its Applications to Bulk-wave Transducers for Ultrasonic
Generatioand Detectioup to 800 MHz
4．2 High-frequency Resonance iAcoustic Superlattice of LiNbO3 Crystals
4．3 Ultrasonic Spectrum iFibonacci Acoustic Superlattices
4．4 Ultrasonic Excitatioand PropagatioiaAcoustic Superlattice
4．5 High-frequency Resonance iAcoustic Superlattice of Periodically Poled LiTaO3
4．6 Bulk Acoustic Wave Delay Line iAcoustic Superlattice
4．7 Negative Refractioof Acoustic Waves iTwo-dimensional Sonic Crystals
4．8 Acoustic Backward-Wave Negative Refractions ithe Second Band of a Sonic Crystal
4．9 Negative Birefractioof Acoustic Waves ia Sonic Crystal
4．10 Extraordinary Acoustic Transmissiothrough a 1D Grating with Very Narrow Apertures
4．11 Acoustic Surface Evanescent Wave and its Dominant Contributioto Extraordinary Acoustic
Transmissioand Collimatioof Sound
4．12 Tunable Unidirectional Sound Propagatiothrough a Sonic-Crystal-Based Acoustic Diode
4．13 Acoustic Asymmetric TransmissioBased oTime-dependent Dynamical Scattering
4．14 Acoustic Cloaking by a Near-zero-index Phononic Crystal
4．15 Acoustic Phase-reconstructionear the Dirac Point of a Triangular Phononic Crystal
4．16 Topologically Protected One-way Edge Mode iNetworks of Acoustic Resonators with Circulating Air Flow

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