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" Self-Organized Lightwave Networks : "
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BL
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555015
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b383591
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| Main Entry
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Tetsuzo Yoshimura
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Self-Organized Lightwave Networks : : Self-Aligned Coupling Optical Waveguides.
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| Publication Statement
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Milton : Chapman and Hall/CRC,, 2018.
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(265 pages)
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| ISBN
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1351004883
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: 1498779808
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: 9781351004886
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: 9781498779807
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| Notes
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7.2.2 Waveguide-Type Thin-Film Artificial Photosynthesis Cell.
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| Contents
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Cover Half Title Title Page Copyright Page Dedication Contents Preface Author Chapter 1: Introduction Chapter 2: Related Technologies 2.1 Self-Focusing of Lightwaves in Nonlinear Optical Media 2.2 Self-Written Waveguides (SWWs) References Chapter 3: Concepts and Features of Self-Organized Lightwave Networks (SOLNETs) 3.1 Types of SOLNETs 3.2 PRI Materials 3.3 One-Photon and Two-Photon SOLNETs 3.4 Fabrication Processes of Targets and Phosphor-Doped Regions References Chapter 4: Performance of SOLNETs Predicted by Computer Simulations. 4.1 SOLNETs between Microscale Waveguides4.1.1 TB-SOLNET/P-SOLNET 4.1.1.1 Couplings between Waveguides with Same Core Size 4.1.1.2 Couplings between Waveguides with Different Core Sizes 4.1.2 R-SOLNET 4.2 SOLNETs between Nanoscale Waveguides 4.2.1 Simulation Models and Procedures 4.2.2 Butt Joint 4.2.3 TB-SOLNET/P-SOLNET 4.2.4 R-SOLNET 4.2.5 LA-SOLNET 4.2.6 Performance of Couplings 4.3 SOLNETs between Microscale and Nanoscale Waveguides 4.3.1 Simulation Models and Procedures 4.3.2 Butt Joint 4.3.3 TB-SOLNET/P-SOLNET 4.3.4 R-SOLNET 4.3.5 LA-SOLNET. 4.3.6 Performance of Couplings4.4 Influence of Write-Beam Wavelengths on SOLNET Formation 4.5 Influence of Write-Beam Intensity and Gap Distances on SOLNET Formation 4.5.1 Write-Beam Intensity 4.5.2 Gap Distances 4.6 Vertical SOLNETs 4.6.1 L-Shaped SWW 4.6.2 R-SOLNET with Wavelength Filters 4.6.3 Vertical R-SOLNET 4.7 Parallel SOLNETs 4.7.1 Comparison of Parallel R-SOLNETs and SWWs 4.7.2 Misalignment Tolerance in Parallel R-SOLNETs 4.8 Y-Branching SOLNETs 4.8.1 Y-Branching TB-SOLNET 4.8.2 Y-Branching R-SOLNET References. Chapter 5: Preferable Waveguide Growth Condition for SOLNET Formation5.1 Straight Waveguide Growth 5.2 Vertical Waveguide Growth 5.3 Influence of Write-Beam Absorption and Intensity on Waveguide Growth 5.3.1 Write-Beam Absorption 5.3.2 Write-Beam Intensity References Chapter 6: Experimental Demonstrations of SOLNETs 6.1 TB-SOLNETs 6.2 R-SOLNETs 6.2.1 R-SOLNET Formed by a Free-Space Write Beam 6.2.2 R-SOLNET with Micromirrors 6.2.3 R-SOLNET with Reflective Objects 6.2.4 R-SOLNET with Luminescent Targets 6.2.4.1 Coumarin-481 Luminescent Targets 6.2.4.2 Alq3 Luminescent Targets. 6.3 Y-Branching SOLNETs6.4 Two-Photon SOLNETs 6.4.1 Two-Photon TB-SOLNET 6.4.2 Two-Photon R-SOLNET References Chapter 7: Applications of SOLNETs 7.1 Integrated Optical Interconnects and Switching Systems 7.1.1 Scalable Film Optical Link Module (S-FOLM) 7.1.2 3D OE Platform Built by Self-Organized Optical Wiring 7.1.3 Self-Organized 3D-Integrated Optical Interconnects 7.1.4 Self-Organized 3D-MOSS 7.1.5 Effect of SOLNET on Insertion Loss in 3D-MOSS 7.2 Integrated Solar Energy Conversion Systems 7.2.1 Waveguide-Type Thin-Film Sensitized Solar Cell.
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Electronic books
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