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Handbook of Optical Fibers

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Cover of 'Handbook of Optical Fibers'

Table of Contents

  1. Altmetric Badge
    Book Overview
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    Chapter 1 Polymer Optical Fiber Sensors and Devices
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    Chapter 2 Microstructured Polymer Optical Fiber Gratings and Sensors
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    Chapter 3 Polymer Fiber Sensors for Structural and Civil Engineering Applications
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    Chapter 4 Solid Core Single-Mode Polymer Fiber Gratings and Sensors
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    Chapter 5 Distributed Rayleigh Sensing
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    Chapter 6 Distributed Raman Sensing
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    Chapter 7 Distributed Brillouin Sensing: Time-Domain Techniques
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    Chapter 8 Distributed Brillouin Sensing: Frequency-Domain Techniques
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    Chapter 9 Distributed Brillouin Sensing: Correlation-Domain Techniques
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    Chapter 10 Emission of Dispersive Waves from Solitons in Axially Varying Optical Fibers
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    Chapter 11 Photonic Crystal Fiber-Based Interferometer Sensors
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    Chapter 12 Photonic Crystal Fiber-Based Grating Sensors
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    Chapter 13 Filling Technologies of Photonic Crystal Fibers and Their Applications
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    Chapter 15 Nonlinear Waves in Multimode Fibers
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    Chapter 16 Shock Waves
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    Chapter 17 Perturbations of Solitons in Optical Fibers
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    Chapter 19 Optical Fiber Sensors for Remote Condition Monitoring of Industrial Structures
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    Chapter 20 Optical Fiber Sensor Network and Industrial Applications
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    Chapter 21 Materials Development for Advanced Optical Fiber Sensors and Lasers
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    Chapter 23 Photonic Microcells for Sensing Applications
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    Chapter 24 Fiber Optic Sensors for Coal Mine Hazard Detection
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    Chapter 25 Optical Fiber Sensors in Ionizing Radiation Environments
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    Chapter 33 Optical Fibers in Terahertz Domain
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    Chapter 35 Optical Fibers for Biomedical Applications
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    Chapter 37 Multicore Fibers
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    Chapter 38 Polymer Optical Fibers
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    Chapter 39 Optical Fibers for High-Power Lasers
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    Chapter 40 Optoelectronic Fibers
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    Chapter 41 Micro-/Nano-optical Fiber Devices
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    Chapter 42 Fiber Grating Devices
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    Chapter 44 Measurement of Optical Fiber Grating
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    Chapter 45 Measurement of Optical Fiber Amplifier
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    Chapter 46 Measurement of Optical Fiber Laser
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    Chapter 47 Rare-Earth-Doped Laser Fiber Fabrication Using Vapor Deposition Technique
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    Chapter 49 Optical Amplifiers for Mode Division Multiplexing
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    Chapter 50 Cladding-Pumped Multicore Fiber Amplifier for Space Division Multiplexing
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    Chapter 51 Powder Process for Fabrication of Rare Earth-Doped Fibers for Lasers and Amplifiers
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    Chapter 52 Crystalline Fibers for Fiber Lasers and Amplifiers
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    Chapter 53 Progress in Mid-infrared Fiber Source Development
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    Chapter 54 Optical Coherent Detection and Digital Signal Processing of Channel Impairments
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    Chapter 56 Measurement of Active Optical Fibers
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    Chapter 57 Basics of Optical Fiber Measurements
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    Chapter 58 Characterization of Distributed Polarization-Mode Coupling for Fiber Coils
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    Chapter 59 Characterization of Specialty Fibers
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    Chapter 60 Characterization of Distributed Birefringence in Optical Fibers
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    Chapter 62 Micro-/Nano-optical Fiber Microfluidic Sensors
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    Chapter 63 All Optical Fiber Optofluidic or Ferrofluidic Microsensors Fabricated by Femtosecond Laser Micromachining
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    Chapter 64 Optical Fiber Microfluidic Sensors Based on Opto-physical Effects
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    Chapter 65 Single-Mode Fibers for High Speed and Long-Haul Transmission
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    Chapter 66 Multi-core Fibers for Space Division Multiplexing
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    Chapter 68 Multimode Fibers for Data Centers
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    Chapter 70 A Variety of Dynamical Settings in Dual-Core Nonlinear Fibers
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    Chapter 71 A Brief History of Fiber-Optic Soliton Transmission
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    Chapter 72 Advanced Nano-engineered Glass-Based Optical Fibers for Photonics Applications
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    Chapter 73 Flat Fibers: Fabrication and Modal Characterization
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    Chapter 74 Microfiber: Physics and Fabrication
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    Chapter 75 Fabrication of Negative Curvature Hollow Core Fiber
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    Chapter 76 Optimized Fabrication of Thulium Doped Silica Optical Fiber Using MCVD
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    Chapter 78 CO 2 -Laser-Inscribed Long Period Fiber Gratings: From Fabrication to Applications
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    Chapter 79 3D Silica Lithography for Future Optical Fiber Fabrication
Overall attention for this book and its chapters
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Title
Handbook of Optical Fibers
Published by
Springer Singapore, December 2019
DOI 10.1007/978-981-10-7087-7
ISBNs
978-9-81-107085-3, 978-9-81-107087-7
Editors

Peng, Gang-Ding

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X Demographics

X Demographics

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 Mendeley readers

Mendeley readers

The data shown below were compiled from readership statistics for 70 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
Unknown 70 100%

Demographic breakdown

Readers by professional status Count As %
Student > Ph. D. Student 13 19%
Student > Master 11 16%
Researcher 7 10%
Student > Bachelor 5 7%
Student > Doctoral Student 4 6%
Other 5 7%
Unknown 25 36%
Readers by discipline Count As %
Engineering 20 29%
Physics and Astronomy 12 17%
Materials Science 7 10%
Environmental Science 1 1%
Medicine and Dentistry 1 1%
Other 3 4%
Unknown 26 37%

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