The Resource Subwavelength and nanometer diameter optical fibers, Limin Tong, Michael Sumetsky, (electronic book)
Subwavelength and nanometer diameter optical fibers, Limin Tong, Michael Sumetsky, (electronic book)
Resource Information
The item Subwavelength and nanometer diameter optical fibers, Limin Tong, Michael Sumetsky, (electronic book) represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Sydney Jones Library, University of Liverpool.This item is available to borrow from 1 library branch.
Resource Information
The item Subwavelength and nanometer diameter optical fibers, Limin Tong, Michael Sumetsky, (electronic book) represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Sydney Jones Library, University of Liverpool.
This item is available to borrow from 1 library branch.
- Extent
- 1 online resource (ix, 228 p.)
- Note
- Title from PDF title page
- Contents
-
- Cover13;
- Preface
- Table of Contents13;
- 1 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 Diameter
- 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
- 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 Er3+ 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
- Isbn
- 9787308068550
- Label
- Subwavelength and nanometer diameter optical fibers
- Title
- Subwavelength and nanometer diameter optical fibers
- Statement of responsibility
- Limin Tong, Michael Sumetsky
- Language
- eng
- Cataloging source
- QE2
- http://library.link/vocab/creatorName
- Tong, Limin
- Dewey number
- 621.3692
- Illustrations
- illustrations
- Index
- index present
- LC call number
- TA1800
- LC item number
- .T66 2010
- Literary form
- non fiction
- Nature of contents
-
- dictionaries
- bibliography
- http://library.link/vocab/relatedWorkOrContributorName
- Sumetsky, Michael
- Series statement
- Advanced topics in science and technology in China,
- http://library.link/vocab/subjectName
-
- Optical fibers
- Nanotechnology
- Electrical engineering
- Engineering
- Label
- Subwavelength and nanometer diameter optical fibers, Limin Tong, Michael Sumetsky, (electronic book)
- Note
- Title from PDF title page
- Bibliography note
- Includes bibliographical references and index
- Color
- multicolored
- Contents
- Cover13; -- Preface -- Table of Contents13; -- 1 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 Diameter -- 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 -- 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 Er3+ 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
- Control code
- SPR701368887
- Dimensions
- unknown
- Extent
- 1 online resource (ix, 228 p.)
- Form of item
- online
- Isbn
- 9787308068550
- Other physical details
- ill.
- Specific material designation
- remote
- Label
- Subwavelength and nanometer diameter optical fibers, Limin Tong, Michael Sumetsky, (electronic book)
- Note
- Title from PDF title page
- Bibliography note
- Includes bibliographical references and index
- Color
- multicolored
- Contents
- Cover13; -- Preface -- Table of Contents13; -- 1 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 Diameter -- 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 -- 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 Er3+ 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
- Control code
- SPR701368887
- Dimensions
- unknown
- Extent
- 1 online resource (ix, 228 p.)
- Form of item
- online
- Isbn
- 9787308068550
- Other physical details
- ill.
- Specific material designation
- remote
Library Links
Embed
Settings
Select options that apply then copy and paste the RDF/HTML data fragment to include in your application
Embed this data in a secure (HTTPS) page:
Layout options:
Include data citation:
<div class="citation" vocab="http://schema.org/"><i class="fa fa-external-link-square fa-fw"></i> Data from <span resource="http://link.liverpool.ac.uk/portal/Subwavelength-and-nanometer-diameter-optical/ZgWkvKJXrbc/" typeof="Book http://bibfra.me/vocab/lite/Item"><span property="name http://bibfra.me/vocab/lite/label"><a href="http://link.liverpool.ac.uk/portal/Subwavelength-and-nanometer-diameter-optical/ZgWkvKJXrbc/">Subwavelength and nanometer diameter optical fibers, Limin Tong, Michael Sumetsky, (electronic book)</a></span> - <span property="potentialAction" typeOf="OrganizeAction"><span property="agent" typeof="LibrarySystem http://library.link/vocab/LibrarySystem" resource="http://link.liverpool.ac.uk/"><span property="name http://bibfra.me/vocab/lite/label"><a property="url" href="http://link.liverpool.ac.uk/">Sydney Jones Library, University of Liverpool</a></span></span></span></span></div>
Note: Adjust the width and height settings defined in the RDF/HTML code fragment to best match your requirements
Preview
Cite Data - Experimental
Data Citation of the Item Subwavelength and nanometer diameter optical fibers, Limin Tong, Michael Sumetsky, (electronic book)
Copy and paste the following RDF/HTML data fragment to cite this resource
<div class="citation" vocab="http://schema.org/"><i class="fa fa-external-link-square fa-fw"></i> Data from <span resource="http://link.liverpool.ac.uk/portal/Subwavelength-and-nanometer-diameter-optical/ZgWkvKJXrbc/" typeof="Book http://bibfra.me/vocab/lite/Item"><span property="name http://bibfra.me/vocab/lite/label"><a href="http://link.liverpool.ac.uk/portal/Subwavelength-and-nanometer-diameter-optical/ZgWkvKJXrbc/">Subwavelength and nanometer diameter optical fibers, Limin Tong, Michael Sumetsky, (electronic book)</a></span> - <span property="potentialAction" typeOf="OrganizeAction"><span property="agent" typeof="LibrarySystem http://library.link/vocab/LibrarySystem" resource="http://link.liverpool.ac.uk/"><span property="name http://bibfra.me/vocab/lite/label"><a property="url" href="http://link.liverpool.ac.uk/">Sydney Jones Library, University of Liverpool</a></span></span></span></span></div>
