1st Edition

Integrated Nanophotonic Resonators
Fundamentals, Devices, and Applications




ISBN 9789814613781
Published September 8, 2015 by Jenny Stanford Publishing
310 Pages 17 Color & 102 B/W Illustrations

USD $160.00

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Book Description

The rapid advancement of integrated optoelectronics has been driven considerably by miniaturization. Following the path taken in electronics of reducing devices to their ultimately fundamental forms, for instance single-electron transistors, now optical devices have also been scaled down, creating the increasingly active research fields of integrated and coupled photonic systems. The interactions between the coupled integrated micro- and nanostructures can provide us with the fundamental understanding and engineering of complex systems for a variety of applications.

This book aims to bring to the readers the latest developments in the rapidly emerging field of integrated nanophotonic resonators and devices. It compiles cutting-edge research from leading experts who form an interdisciplinary team around the world. The book also introduces the fundamental knowledge of coupled integrated photonic/electronic/mechanical micro- and nanoresonators and their interactions, as well as advanced research in the field.

Table of Contents

Hybrid and coupled photonic system between nanoparticle and integrated micro resonator;Y. Yi

Coupled mode theory and its applications in computational nanophotonics; Y. Yi & J. Mu

Template-guided self-assembly of discrete optoplasmonic molecules and extended optoplasmonic arrays; Y. Hong, W. Ahn, S. Boriskina, X. Zhao, & B. M. Reinhard

Nanophotonic resonators for enhancement of absorption and transmission cross sections of subwavelength plasmonic devices; G. Veronis, C. Min, Y. Huang, & L. Yang

Photoluminescent centers interacting with silicon-based photonic devices; X. Wang & Z. Zhou

Nonclassical light sources and frequency converters with integrated optomechanical systems; Z. Yina, Y. Liu & Y. Xiao

Scintillators boosted by nanophotonics; B. Liu

Optical trapping of nanoparticles; S. Lin & J. Hu

Rainbow trapping effect in horizontal and vertical directions; Qiaoqiang Gan, Dengxin Ji, Haifeng Hu, & Xie Zeng

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Editor(s)

Biography

Ya Sha Yi is an associate professor with the Department of Electrical and Computer Engineering, University of Michigan, Dearborn campus, and the Energy Institute, University of Michigan, Ann Arbor campus. He received his PhD from the Massachusetts Institute of Technology (MIT) and was a postdoctoral associate with the Electronic Materials Processing Center, MIT, where he was involved in research on integrated nano-optoelectronic materials and devices. He has had extensive research experience with the Los Alamos National Laboratory and the 3M Corporate Research Laboratory. Dr. Yi is also a research affiliate with the Microsystems Technology/Microphotonics Center at MIT. He has authored more than 60 journal papers, has edited 1 book and written 3 book chapters, and holds 11 US patents and 1 international patent. He has led several government/industry-funded projects, has been on the review panel for the US Department of Energy and the National Science Foundation, and has been a reviewer for leading journals. His research interests are solid-state electronics, semiconducting devices, photovoltaics and energy-related optoelectronic devices, solid-state lighting (LEDs), bioinspired nano-optoelectronic structures, nanoelectronics/MEMS, and intelligent vehicle and transportation system. Dr. Yi currently serves as the vice chair of the IEEE Southeast Michigan Section.

Reviews

"This unique book introduces readers to the rapid advancement in a variety of active areas in coupled and integrated nanophotonics. All the chapters represent the latest cutting-edge research in this emerging field. Readers from both academia and industry who are interested in integrated nanophotonic resonators and devices will definitely benefit from this timely book."
— Dr. Terry L. Smith, 3M Co., USA

"This is a leading book in the field of nanophotonic resonators and devices and presents the latest developments. Integrated nanophotonics will play a pivotal role in future semiconductor chips, and this text provides scientists, engineers, and professionals with invaluable resources in this cutting-edge field."
— Dr. Xiaoman Duan, Massachusetts Institute of Technology, USA

"In this book, some typical topics in the field of integrated nanophotonic resonators are reviewed from the point of view of fundamentals, devices, and applications. The emerging new advances in integrated microresonators, optoplasmonics, silicon-based photonic devices, optomechanical systems, optical trapping, and photonic-structured scintillators and the theoretical simulation methods described in this book will open the door to realizing an unprecedented development. Undoubtedly, this book is beneficial to this community."
— Prof. Hong Chen, Tongji University, China