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亚波长直径微纳光纤
“亚波长直径恭硕纳光纤(英文版)”内容简介:亚波长和纳米直径光纤nanoscaleoptical纤维的基本物理和工程方面ofthe制造,性能和应用提供acomprehensive和最新的研究范围。书中论述了光学微/纳米纤维,代表了对亚波长规模光学fibersand纳米技术的完美融合,涵盖了现代光学工程的主题broadrange,光子学和纳米技术的跨越,从光纤,近场光学,nonlinearoptics,原子光学纳米材料制备和microphotonic compo-nents/devices。其目的是为研究人员和研究生inthe光电子,纳米技术领域,光学工程和麻材料科学。
图书信息
书 名: 亚波长直径微纳光纤
作 者:童利民
出版社: 浙江大学出版社
出版时间: 2009年09月
ISBN: 9783642033612
开本: 16开
定价: 98.00 元,实际不一定
内容简介
《亚波长直径微纳光纤(英文版)》内容简介:Subwavelength and Nanometer Diameter Optical Fibers provides acomprehensive and up-to-date coverage of research on nanoscaleoptical fibers including the basic physics and engineering aspects ofthe fabrication, properties and applications. The book discusses opti-cal micro/nanofibers that represent a perfect fusion of optical fibersand nanotechnology on subwavelength scale and covers a broadrange of topics in modern optical engineering, photonics and nano-technology spanning from fiber optics, near-field optics, nonlinearoptics, atom optics to nanofabrication and microphotonic compo-nents/devices. It is intended for researchers and graduate students inthe fields of photonics, nanotechnology, optical engineering and ma-terials science.
作者简介
Dr. Limin Tong is a professor at Department of Optical Engineeringand State Key Laboratory of Modern Optical Instrumentation ofZhejiang University, China; Dr. Sumetsky is a researcher atOFS Laboratories, USA.
童利民博士为浙江大学现代光学仪器国家重点实验室教授,Michael Sumetsky博士是美国atOFS实验室的研究员。
图书目录(英文)
Introduction
1.1 A Brief History of Micro- and Nanofibers
1.2 Concepts of MNFs and the Scope of this Book
References
2 Optical Waveguiding Properties of MNFs: Theory and Numerical Simulations
2.1 Basic Guiding Properties of Ideal MNFs
2.1.1 Mathematic Model
2.1.2 Single-mode Condition and Fundamental Modes
2.1.3 Fractional Power Inside the Core and Effective Diametet
2.1.4 Group Velocity and Waveguide Dispersion
2.2 Theory of MNFs with Microscopic Nonuniformities
2.2.1 Basic Equations
2.2.2 Conventional and Adiabatic Perturbation Theory
2.2.3 Transmission Loss Caused by a Weak and Smooth Nonuniformity
2.3 Theory of MNF Tapers
2.3.1 Semiclassical Solution of the Wave Equation in the Adiabatic Approximation and Expression of Radiation Loss
2.3.2 Optics of Light Propagation Along the Adiabatic MNF Tapers
2.3.3 Example of a Conical MNF Taper
2.3.4 Example of a Biconical MNF Taper
2.3.5 Example of an MNF Taper with Distributed Radiation Loss
2.4 The Thinnest MNF Optical Waveguide
2.5 Evanescent Coupling between Parallel MNFs: 3D-FDTD Simulation
2.5.1 Model for FDTD Simulation
2.5.2 Evanescent Coupling between two Identical Silica MNFs 45
2.5.3 Evanescent Coupling between two Silica MNFs with Different Diameters
2.5.4 Evanescent Coupling between a Silica MNF and a Tellurite MNF
2.6 Endface Output Patterns
2.6.1 MNFs with Flat Endfaces
2.6.2 MNFs with Angled Endfaces
2.6.3 MNFs with Spherical and Tapered Endfaces
2.7 MNF Interferometers and Resonators
2.7.1 MNF Mach-Zehnder and Sagnac Interferometers
2.7.2 MNF Loop Resonators
2.7.3 MNF Coil Resonators
References
3 Fabrication of MNFs
3.1 Taper Drawing Techniques
3.2 Taper-drawing Fabrication of Glass MNFs
3.2.1 Taper Grawing MNFs Rom Glass Fibers
3.2.2 Drawing MNFs Directly from Bulk Glasses
3.3 Drawing Polymer MNFs from Solutions
References
4 Properties of MNFs: Experimental Investigations
4.1 Micro/Nanomanipulation and Mechanical Properties of MNFs
4.1.1 Visibility of MNFs
4.1.2 MNF Manipulation
4.1.3 Tensile Strengths of MNFs
4.2 Optical Properties
4.2.1 Optical Losses
4.2.2 Effect of the Substrate References
5 MNF-based Photonic Components and Devices
5.1 Linear Waveguides and Waveguide Bends
5.1.1 Linear Waveguides
5.1.2 Waveguide Bends
5.2 Micro-couplers, Mach-Zehnder and Sagnac Interferometers
5.2.1 Micro-couplers
5.2.2 Mach-Zehnder Interferometers
5.2.3 Sagnac Interferometers
5.3 MNF Loop and Coil Resonators
5.3.1 MNF Loop Resonator (MLR) Fabricated by Macro-Manipulation
5.3.2 Knot MLR Fabricated by Micro-Manipulation
5.3.3 Experimental Demonstration of MCR
5.4 MNF Filters
5.4.1 Short-Pass Filters
5.4.2 Add-Drop Filters
5.5 MNF Lasers
5.5.1 Modeling MNF Ring Lasers
5.5.2 Numerical Simulation of Era+ and Yb3+ Doped MNF Ring Lasers
5.5.3 Er3+ and Yb3+ Codoped MNF Ring Lasers
5.5.4 Evanescent-Wave-Coupled MNF Dye Lasers
References
6 Micro/nanofiber Optical Sensors
6.1 Introduction
6.2 Application of a Straight MNF for Sensing
6.2.1 Microfluidic Refractive Index MNF Sensor
6.2.2 Hydrogen MNF Sensor
6.2.3 Molecular Absorption MNF Sensor
6.2.4 Humidity and Gas Polymer MNF Sensor
6.2.5 Optical Fiber Surface MNF Sensor
6.2.6 Atomic Fluorescence MNF Sensor
6.3 Application of Looped and Coiled MNF for Sensing
6.3.1 Ultra-Fast Direct Contact Gas Temperature Sensor
6.3.2 MCR Microfluidic Sensor
6.4 Resonant Photonic Sensors Using MNFs for Input and Output Connections
6.4.1 MNF/Microsphere and MNF/Microdisk Sensor
6.4.2 MNF/Microcylinder and MNF/Microcapillary Sensors
6.4.3 Multiple-Cavity Sensors Supported by MNFs
6.5 Summary
References
7 More Applications
7.1 Optical Nonlinear Effects in MNFs
7.2 MNFs for Atom Optics
7.3 Other Applications
References
Index
图书目录(中文)
简介
1.1微和纳米纤维的简史
1.2概念的MNFs和这本书的范围
参考文献
2光学波导性质的MNFs:理论和数值模拟
2.1基本指导理想MNFs的性能
2.1.1数学模型
2.1.2单模条件和基本模式
2.1.3内核内的和有效Diametet的分数幂
2.1.4群速度和波导色散
2.2理论与微观不均匀MNFs
2.2.1基本方程
2.2.2常规和绝热微扰理论
2.2.3弱和平滑的不均匀性引起的传输损耗
2.3理论的多国部队锥度
2.3.1波动方程的绝热近似和辐射损失的表达的半经典解决方案
2.3.2沿绝热的多国部队锥度光传播的光学
2.3.3一个圆锥形的多国部队锥范例
2.3.4示例一个双锥的多国部队锥
2.3.5示例与分布式辐射损失的多国部队锥
2.4最薄的多国部队的光波导
2.5渐逝之间的耦合并行MNFs:3D - FDTD模拟
2.5.1 FDTD模拟的模型
2.5.2渐逝之间的耦合两个相同的二氧化硅MNFs 45
2.5.3渐逝之间的耦合两种不同直径的硅MNFs
2.5.4硅胶多国部队和碲多国部队之间的耦合渐逝
2.6端面输出模式
2.6.1平端面MNFs
2.6.2带直角端面MNFs
2.6.3与球面和圆锥端面MNFs
2.7多国部队干涉仪和谐振器
2.7.1多国部队Mach - Zehnder型和萨尼亚克干涉
2.7.2多国部队回路谐振器
2.7.3多国部队线圈谐振器
参考文献
3制作的MNFs
3.1圆锥绘图技术
3.2锥画制作玻璃MNFs
3.2.1锥形Grawing MNFs ROM玻璃纤维
3.2.2直接从散装眼镜绘画MNFs
3.3绘图聚合物MNFs从解决方案
参考文献
4属性MNFs:实验研究
4.1微/纳米操纵和力学性能的MNFs
4.1.1可见性的MNFs
4.1.2多国部队操作
4.1.3拉伸强度MNFs
4.2光学性质
4.2.1光损失
4.2.2基板的引用影响
5多国部队为基础的光子元件和装置
5.1线性波导和波导弯头
5.1.1线性波导
5.1.2波导弯曲
5.2微型耦合器,Mach - Zehnder型和萨尼亚克干涉
5.2.1微耦合器
5.2.2马赫 - 曾德尔干涉仪
5.2.3萨尼亚克干涉
多国部队5.3环和线圈谐振器
5.3.1多国部队回路谐振器(MLR)捏造宏观操作
5.3.2结国土资源部制造微操作
5.3.3试验示范的MCR
5.4多国部队滤波器
5.4.1短通滤波器
5.4.2添加下拉过滤器
5.5多国部队激光器
5.5.1建模的多国部队环形激光器
5.5.2数值模拟时代+和Yb3 +掺杂的多国部队环形激光器
5.5.3掺Er3 +和Yb3 +共掺的多国部队环形激光器
5.5.4渐逝波耦合的多国部队染料激光器
参考文献
6微/纳米纤维的光学传感器
6.1简介
6.2用于检测直线多国部队中的应用
6.2.1微流控折射率多国部队传感器
6.2.2氢多国部队传感器
6.2.3分子吸收的多国部队传感器
6.2.4湿度和气体高分子多国部队传感器
6.2.5光纤表面的多国部队传感器
6.2.6原子荧光多国部队传感器
6.3用于检测的环形和连续多国部队中的应用
6.3.1超快速的直接接触气体温度传感器
6.3.2 MCR的微流控传感器
6.4谐振使用输入和输出连接MNFs的光子传感器
6.4.1多国部队/微球和多国部队/微盘传感器
6.4.2多国部队/ Microcylinder和多国部队/ Microcapillary传感器
6.4.3多腔传感器MNFs支持
6.5摘要
参考文献
7更多应用程序
7.1光学非线性效应MNFs
7.2原子光学MNFs
7.3其他应用程序
参考文献
指数
