Bøker av Tetsuzo (Tokyo University of Technology Yoshimura

This book provides concepts and experimental demonstrations for various types of MLD and organic multiple quantum dots (Organic MQDs), which is a typical tailored organic thin-film material. Possible applications of MLD to optical interconnects, energy conversion systems, molecular targeted drug delivery, and cancer therapy are proposed.

This book provides concepts and experimental demonstrations for various types of MLD and organic multiple quantum dots (Organic MQDs), which is a typical tailored organic thin-film material. Possible applications of MLD to optical interconnects, energy conversion systems, molecular targeted drug delivery, and cancer therapy are proposed.

The SOLNET (self-organized lightwave network) enables self-aligned optical coupling between misaligned optical devices with different core sizes, optical wiring in 3-D free spaces, and targeting lightwaves onto specific objects. These features make fabrication processes of optical networks within systems simpler to reduce the system cost. By reading this book, the readers can learn SOLNETs, their applications, and future challenges systematically. The readers can get hints to reduce the system cost by implementing optical solder and 3-D optical wiring of SOLNET into the systems.

This book is an invaluable resource for material scientists working to develop artificial materials that can be structurally tailored at the atomic/molecular-level. This capability will enable electron-wave function control, which would improve material performance and generate new photonic/electronic phenomena. Exploring the prospect of structural modification in artificial materials, field pioneer Yoshimura describes how we can enhance the photonic/electronic properties of thin films using such precise manipulation of atomic and molecular arrangement. He also addresses related topics and concepts, such as a self-organized lightwave networks and heterogeneous integration processes. In addition, this important resource assesses applications in computers, optical switching systems, solar energy conversion systems, and bio/medical-photonics.

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.

This book is an invaluable resource for material scientists working to develop artificial materials that can be structurally tailored at the atomic/molecular-level. This capability will enable electron-wave function control, which would improve material performance and generate new photonic/electronic phenomena. Exploring the prospect of structural modification in artificial materials, field pioneer Yoshimura describes how we can enhance the photonic/electronic properties of thin films using such precise manipulation of atomic and molecular arrangement. He also addresses related topics and concepts, such as a self-organized lightwave networks and heterogeneous integration processes. In addition, this important resource assesses applications in computers, optical switching systems, solar energy conversion systems, and bio/medical-photonics.