Optical Electronics Self-Organized Integration and Applications
Auteur : Yoshimura Tetsuzo
This book proposes and reviews comprehensive strategies based on optical electronics for constructing optoelectronic systems with minimized optics excess. It describes the core technologies such as self-organized optical waveguides based on self-organized lightwave network (SOLNET), three-dimensional optical circuits, material-saving heterogeneous thin-film device integration process (PL-Pack with SORT), and high-speed/small-size light modulators and optical switches. The book also presents applications of optical electronics, including integrated optical interconnects within computers and massive optical switching systems utilizing three-dimensional self-organized optical circuits, solar energy conversion systems, and bio/medical photonics such as cancer therapy.
Introduction. From Electronics to Optical Electronics. Analysis Tools for Optical Circuits. Self-Organized Optical Waveguides: Theoretical Analysis Self-Organized Optical. Waveguides: Experimental Demonstrations. Optical Waveguide Films with Vertical Mirrors. 3-D Optical Circuits with Stacked Waveguide Films. Heterogeneous Thin-Film Device Integration. Optical Switches. OE Hardware Built by Optical Electronics. Integrated Solar Energy Conversion Systems. Future Challenges.
Tetsuzo Yoshimura received his B.Sc. degree in physics from Tohoku University, Sendai, Japan, in 1974, and M.Sc. and Ph.D. degrees in physics from Kyoto University, Kyoto, Japan, in 1976 and 1985, respectively. In 1976, he joined Fujitsu Laboratories Ltd. and was engaged in research on optoelectronic devices. From 1997 to 2000, he was with Fujitsu Computer Packaging Technologies, Inc., San Jose, CA, in charge of research on board/chip-level optical wiring. He is currently a professor at Tokyo University of Technology. He studies self-organized and three-dimensional optical circuits, resource-saving heterogeneous integration, and organic tailored materials grown by MLD, and also their applications to optical interconnects within computers, massive optical switching systems, solar energy conversion systems, and bio/medical photonics.
Date de parution : 03-2012
15.2x22.9 cm
Thèmes d’Optical Electronics :
Mots-clés :
Optical Waveguide; Write Beams; From Electronics to Optical Electronics; Lightwave Technol; Self-Organized Optical Waveguides: Theoretical Analysis; IEEE Photon; Optical Waveguide Films with Vertical Mirrors; Vertical Mirrors; Heterogeneous Thin-Film Device Integration; Sol Gel Materials; Integrated Solar Energy Conversion Systems; Optical Interconnect; Optical Waveguide Films; Optical Circuits; Vertical Waveguide; Lateral Misalignment; Polymer Wires; Waveguide Films; Light Beam Propagation; Optical Switching Systems; MLD; Optical Switch; Probe Beam; Photonic Crystals; Optical Electronics; Output Waveguide; Refractive Index; Light Beam; Device Ii; Conjugated Polymer