Overview

Addressing the growing demand for larger capacity in information technology, VLSI Micro- and Nanophotonics: Science, Technology, and Applications explores issues of science and technology of micro/nano-scale photonics and integration for broad-scale and chip-scale Very Large Scale Integration photonics. This book is a game-changer in the sense that it is quite possibly the first to focus on ""VLSI Photonics"". Very little effort has been made to develop integration technologies for micro/nanoscale photonic devices and applications, so this reference is an important and necessary early-stage perspective on this field. New demand for VLSI photonics brings into play various technological and scientific issues, as well as evolutionary and revolutionary challenges--all of which are discussed in this book. These include topics such as miniaturization, interconnection, and integration of photonic devices at micron, submicron, and nanometer scales. With its ""disruptive creativity"" and unparalleled coverage of the photonics revolution in information technology, this book should greatly impact the future of micro/nano-photonics and IT as a whole. It offers a comprehensive overview of the science and engineering of micro/nanophotonics and photonic integration. Many books on micro/nanophotonics focus on understanding the properties of individual devices and their related characteristics. However, this book offers a full perspective from the point of view of integration, covering all aspects of benefits and advantages of VLSI-scale photonic integration--the key technical concept in developing a platform to make individual devices and components useful and practical for various applications.

Full Product Details

Author:   El-Hang Lee ,  Louay Eldada (HelioVolt Corporation, Austin, Texas, USA) ,  Manijeh Razeghi (Northwestern University, Evanston, Illinois, USA) ,  Chennupati Jagadish
Publisher:   Taylor & Francis Inc
Imprint:   CRC Press Inc
Dimensions:   Width: 17.80cm , Height: 3.60cm , Length: 25.40cm
Weight:   1.292kg
ISBN:  

9781574447293

ISBN 10:   1574447297
Pages:   634
Publication Date:   22 September 2010
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

Introduction. Scientific and Engineering Issues. Integrated Photonic Technologies: Microring Structures. Integrated Photonic Technologies: Photonic Crystals and Integrated Circuits. Integrated Photonic Technologies: Plasmonics and Integration. Integrated Photonic Technologies: Quantum Devices and Integration. Integrated Photonic Technologies: Planar Lightwave Circuits. Integrated Photonic Technologies: Optical-Printed Circuit Boards. Technologies for Emerging Applications: Renewable Energy Generation. Technologies for Emerging Applications: Photonic DNA Computing. Technologies for Emerging Applications: Sensing Applications. Index.

Reviews

For students, scholars, practitioners, researchers, and industrialists, Lee (information technology, Inha U., South Korea) et al. compile 24 chapters that explore science and technology issues associated with micro/nano-scale photonics and integration for broad-scale and chip-scale very-large-scale-integration (VSLI) photonics. The contributors, an international group of physics, engineering, and information technology researchers from universities and industry, address issues such as miniaturization, interconnection, and integration of photonic devices at micron, submicron, and nanometer scales, and micro-ring structures, photonic crystals and integrated circuits, plasmonics, quantum devices, planar lightwave circuits, optical-printed circuit boards, and applications in renewable energy generation, photonic DNA computing, and sensing. --In Research Book News, booknews.com, February 2011

For students, scholars, practitioners, researchers, and industrialists, Lee (information technology, Inha U., South Korea) et al. compile 24 chapters that explore science and technology issues associated with micro/nano-scale photonics and integration for broad-scale and chip-scale very-large-scale-integration (VSLI) photonics. The contributors, an international group of physics, engineering, and information technology researchers from universities and industry, address issues such as miniaturization, interconnection, and integration of photonic devices at micron, submicron, and nanometer scales, and micro-ring structures, photonic crystals and integrated circuits, plasmonics, quantum devices, planar lightwave circuits, optical-printed circuit boards, and applications in renewable energy generation, photonic DNA computing, and sensing. -In Research Book News, booknews.com, February 2011

For students, scholars, practitioners, researchers, and industrialists, Lee (information technology, Inha U., South Korea) et al. compile 24 chapters that explore science and technology issues associated with micro/nano-scale photonics and integration for broad-scale and chip-scale very-large-scale-integration (VSLI) photonics. The contributors, an international group of physics, engineering, and information technology researchers from universities and industry, address issues such as miniaturization, interconnection, and integration of photonic devices at micron, submicron, and nanometer scales, and micro-ring structures, photonic crystals and integrated circuits, plasmonics, quantum devices, planar lightwave circuits, optical-printed circuit boards, and applications in renewable energy generation, photonic DNA computing, and sensing.-In Research Book News, booknews.com, February 2011

Author Information

Professor El-Hang Lee graduated from Seoul National University with a BSEE (summa cum laude) in 1970. He received his MS, MPhil, and Ph.D in applied physics from Yale University in 1973, 1975, and 1977, respectively, under the guidance of Professor John B. Fenn (Yale, Nobel Laureate, chemistry, 2002) and Professor Richard K. Chang (Henry Ford II Professor, former student of Professor N. Bloembergen, Harvard, Nobel Laureate, physics, 1981). Professor Lee subsequently conducted teaching, research, and management in the fields of semiconductor physics, materials, devices, optoelectronics, photonics, and optical communication at Yale University, Princeton, MEMC, AT&T, ETRI (Electronics and Telecommunications Research Institute; vice president), and KAIST (Korea Advanced Institute of Science and Technology). In 1999, Professor Lee joined INHA University, where he has been a distinguished university professor, founder of the School of Information and Communication Engineering, dean of the Graduate School of Information Technology, founding director of the micro/nano-PARC (Photonics Advanced Research Center), and founding director of the OPERA (Optics and Photonics Elite Research Academy) National Research Center of Excellence for VLSI Photonics. Dr. Louay Eldada is the chief technology officer of HelioVolt Corporation, Austin, Texas, where he leads the development and manufacture of compound semiconductor-based photovoltaic modules and systems. He holds a PhD from Columbia University, specializing in optoelectronic devices, modules, and systems. Dr. Eldada started his professional career with Honeywell International, where he founded the Telecom Photonics venture and directed its research and development arm for six years. The group's success led to its acquisition by Corning Inc., where he continued to manage technical development. After leaving Corning Inc., Dr. Eldada founded Telephotonics Inc., a start-up company, where he took on the responsibilities of chief technical officer and vice president of engineering for the development and manufacture of innovative organic--inorganic highly integrated optoelectronic integrated circuits and systems. The commercial success of Telephotonics, Inc. in two years after its launch led to its acquisition by E. I. du Pont de Nemours and Company (DuPont)(R), where Dr. Eldada served as chief technical officer and vice president of engineering at DuPont Photonic Technologies for six years. Professor Manijeh Razeghi (fellow, IEEE) is one of the leading scientists in the field of semiconductor science and technology, and a pioneer in the development and implementation of major modern epitaxial techniques. She received her Doctorat d'Etat es Sciences Physiques from the Universite de Paris, France, in 1980. After receiving her doctoral degree, she joined Thomson-CSF (Orsay, France) as a senior research scientist and then served as the head of the Exploratory Materials Laboratory from 1980 to 1991. She joined Northwestern University, Evanston, Illinois, as a Walter P. Murphy Professor and Director of the Center for Quantum Devices in the fall of 1991, where she created the undergraduate and graduate programs in solid-state engineering. Her current research interest is in nanoscale optoelectronic quantum devices. She is a past recipient of the IBM Europe Science and Technology Prize. Professor Chennupati Jagadish was born and educated in India and worked there and in Canada prior to moving to Australia in 1990. He is currently a federation fellow, professor, and head of the Semiconductor Optoelectronics, Nanotechnology and Photovoltaics Group in the Research School of Physical Sciences and Engineering, Australian National University. He is also the convenor of the Australian Research Council Nanotechnology Network, the director (ACT Node) of the Australian National Fabrication Facility, and the president of the IEEE Nanotechnology Council (NTC). He is the recipient of the 2000 Institute of Electrical and Electronics Engineers, Inc. (IEEE) Millennium Medal and has received distinguished lecturer awards from both the IEEE Lasers and Electro-Optics Society and the IEEE Electron Devices Society.

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