Overview

This book gives a solution to the problem of constructing lightwave paths in free spaces by proposing the concept of a Self-Organized Lightwave Network (SOLNET). This concept enables us to form self-aligned coupling optical waveguides automatically. SOLNETs are fabricated by self-focusing of lightwaves in photosensitive media, in which the refractive index increases upon light beam exposure, to realize the following functions: 1) Optical solder: Self-aligned optical couplings between misaligned devices with different core sizes 2) Three-dimensional optical wiring 3) Targeting lightwaves onto specific objects SOLNETs are expected to reduce the efforts to implement lightwaves into electronic systems and allow us to create new architectures, thus reducing costs and energy dissipation and improving overall system performance. SOLNETs are also expected to be applied to a wide range of fields where lightwaves are utilized, for example, solar energy conversion systems and biomedical technologies, especially photo-assisted cancer therapies. Readers will systematically learn concepts and features of SOLNETs, SOLNET performance predicted by computer simulations, experimental demonstrations for the proof of concepts, and expected applications. They will also be prepared for future challenges of the applications. This book is intended to be read by scientists, engineers, and graduate students who study advanced optoelectronic systems such as optical interconnects within computers and optical networking systems, and those who produce new ideas or strategies on lightwave-related subjects.

Full Product Details

Author:   Tetsuzo Yoshimura (Tokyo University of Technology, Japan)
Publisher:   Taylor & Francis Inc
Imprint:   CRC Press Inc
Weight:   0.521kg
ISBN:  

9781498779791

ISBN 10:   1498779794
Pages:   209
Publication Date:   20 April 2018
Audience:   College/higher education ,  General/trade ,  Tertiary & Higher Education ,  General
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

1. Introduction. 2. Related Technologies. 2.1 Self-Focusing of Lightwaves in Nonlinear Optical Media. 2.2 Photosensitive Materials. Photopolymers, Photosensitive glass, Photorefractive crystals. Self-Written Waveguides. 3. Self-Organized Optical Waveguides--- Self-Organized Lightwave Network (SOLNET). 3.1 Concept. Two-Beam-Writing SOLNET (TB-SOLNET), Reflective SOLNET (R-SOLNET), Luminescence-Writing SOLNET (L-SOLNET), Phosphor SOLNET (P-SOLNET), SOLNETs utilizing One-Photon and Two-Photon photochemistry. 3.2 Features Self-aligned optical coupling, 3-D optical wiring, Targeting lightwaves onto specific objects. 4. Proof of Concept by Computer Simulations. 4.1 TB-SOLNET/P-SOLNET. 4.2 R-SOLNET. 4.3 L-SOLNET. 4.4 SOLNET between Microscale and Nanoscale Waveguides. 4.5 Parallel and Branching SOLNET. 4.6 Vertical SOLNET for Optical Z-Connections. 5. Experimental Demonstrations 5.1 TB-SOLNET. Fiber and Fiber. 5.2 R-SOLNET. Fiber and Mirror, Fiber and Luminescent target. 5.3 SOLNET between Microscale and Nanoscale Waveguides. Fiber and LD. 5.4 Branching SOLNET. Fiber and Two luminescent targets. 5.5 Vertical SOLNET. Mask window and Mirror, From 45o mirror in waveguide film. 6. Expected Applications. 6.1 Optical Solder. Self-aligned optical coupling. 6.2 Integrated Optical Interconnects. Self-aligned optical coupling/3-D optical wiring. 6.3 3-D Micro Optical Switching Systems. Self-aligned optical coupling/3-D optical wiring. 6.4 Solar Energy Conversion Systems. Self-aligned optical coupling/3-D optical wiring. 6.5 Cancer therapy. Targeting lightwaves onto specific objects. 7. Future Challenges. Re-writable photosensitive materials for dynamic SOLNET. High-Rn photosensitive materials for high-index-contrast SOLNET. Control of gamma characteristics of photosensitive materials for optimized SOLNET. Interference pattern with SOLNET. 8. Summary. Appendix: Methods for Computer Simulations of SOLNET. Beam propagation method, Finite difference time domain method

Reviews

This book encapsulates how self-focusing photo-sensitive media can be utilized to enable the automatic formation of self-aligned coupling optical waveguides. Such self-organized lightwave networks (SOLNETs) are offered as a low-cost, low-energy means to introduce lightguides into electronic systems. --K. Alan Shore, Bangor University, U.K.

This book encapsulates how self-focusing photo-sensitive media can be utilized to enable the automatic formation of self-aligned coupling optical waveguides. Such self-organized lightwave networks (SOLNETs) are offered as a low-cost, low-energy means to introduce lightguides into electronic systems. --K. Alan Shore, Bangor University, U.K.

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Tetsuzo Yoshimura

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