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Preface IX
Acknowledgments XIII
1 Introduction: Faster, Further, More Information 1
1.1 Principle of Optical Fiber 3
1.2 Plastic Optical Fiber 6
References 9
2 Transmission Loss 11
2.1 Absorption Loss 11
2.1.1 Electronic Transition Absorption 11
2.1.2 Molecular Vibration Absorption 12
2.1.3 Effect of Fluorination on Attenuation Spectra of POFs 15
2.2 Scattering Loss 19
2.2.1 Definition of Scattering Loss 19
2.2.2 Heterogeneous Structure and Excess Scattering 20
2.2.3 Origin of Excess Scattering in PMMA 21
2.2.4 Empirical Estimation of Scattering Loss for Amorphous Polymers 23
2.3 Low-Loss POFs 26
2.3.1 PMMA- and PSt-Based POFs 26
2.3.2 PMMA-d8-Based POF 26
2.3.3 CYTOP®-Based POF 27
References 28
3 Transmission Capacity 31
3.1 Bandwidth 32
3.1.1 Intermodal Dispersion 32
3.1.2 Intramodal Dispersion 34
3.1.3 High-Bandwidth POF 35
3.2 Wave Propagation in POFs 38
3.2.1 Microscopic Heterogeneities 39
3.2.2 Debye’s Scattering Theory 40
3.2.3 Developed Coupled Power Theory 42
3.2.4 Mode Coupling Mechanism 44
3.2.5 Efficient Group Delay Averaging 46
3.3 Mode Coupling Effect in POFs 50
3.3.1 Radio-over-Fiber with GI POFs 50
3.3.2 Noise Reduction Effect in GI POFs 50
References 55
4 Materials 59
4.1 Representative Base Polymers of POFs 59
4.1.1 Poly(methyl methacrylate) 59
4.1.2 Perfluorinated Polymer, CYTOP® 61
4.2 Partially Halogenated Polymers 63
4.2.1 Polymethacrylate Derivatives 63
4.2.2 Polystyrene Derivatives 67
4.3 Perfluoropolymers 70
4.3.1 Perfluorinated Polydioxolane Derivatives 70
4.3.2 Copolymers of Dioxolane Monomers 74
4.3.3 Copolymers of Perfluoromethylene Dioxolanes and Fluorovinyl Monomers 74
References 76
5 Fabrication Techniques 79
5.1 Production Processes of POFs 79
5.1.1 Preform Drawing 79
5.1.2 Batch Extrusion 80
5.1.3 Continuous Extrusion 81
5.2 Fabrication Techniques of Graded-Index Preforms 82
5.2.1 Copolymerization 82
5.2.1.1 Binary Monomer System 84
5.2.1.2 Ternary Monomer System 85
5.2.2 Preferential Dopant Diffusion 90
5.2.3 Thermal Dopant Diffusion 91
5.2.4 Polymerization under Centrifugal Force 93
5.3 Extrusion of GI POFs 95
References 98
6 Characterization 101
6.1 Refractive Index Profile 101
6.1.1 Power-Law Approximation 101
6.1.2 Transverse Interference Technique 102
6.2 Launching Condition 105
6.2.1 Underfilled and Overfilled Launching 106
6.2.2 Differential Mode Launching 107
6.3 Attenuation 107
6.3.1 Cutback Technique 108
6.3.2 Differential Mode Attenuation 110
6.4 Bandwidth 111
6.4.1 Time Domain Measurement 112
6.4.2 Differential Mode Delay 113
6.5 Near-Field Pattern 114
References 117
7 Optical Link Design 119
7.1 Link Power Budget 120
7.2 Eye Diagram 120
7.2.1 Eye Opening 121
7.2.2 Eye Mask 122
7.3 Bit Error Rate and Link Power Penalty 122
7.3.1 Intersymbol Interference 125
7.3.2 Extinction Ratio 126
7.3.3 Mode Partition Noise 126
7.3.4 Relative Intensity Noise 127
7.4 Coupling Loss 127
7.4.1 Core Diameter Dependence 128
7.4.2 Ballpoint Pen Termination 129
7.4.3 Ballpoint Pen Interconnection 132
7.5 Design for Gigabit Ethernet 134
References 135
Appendix Progress in Low-Loss and High-Bandwidth Plastic Optical Fibers 139
A.1 Introduction 139
A.2 Basic Concept and Classification of Optical Fibers 140
A.3 The Advent of Plastic Optical Fibers and Analysis of Attenuation 143
A.3.1 Absorption Loss 144
A.3.2 Scattering Loss 147
A.4 Graded-Index Technologies for Faster Transmission 149
A.4.1 Interfacial-Gel Polymerization Technique 150
A.4.2 Coextrusion Process 152
A.5 Recent Studies of Low-Loss and Low-Dispersion Polymer Materials 153
A.5.1 Partially Fluorinated Polymers 156
A.5.2 Perfluorinated Polymer 159
A.6 Conclusion 165
Acknowledgment 165
References 166
Index 169
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