Henry Radamson's Books

Monolithic Nanoscale Photonics-Electronics Integration in Silicon and Other Group IV Elements

By: Henry Radamson,Lars Thylen

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Monolithic Nanoscale Photonics-Electronics Integration in Silicon and Other Group IV Elements

By: Henry Radamson,Lars Thylen

Silicon technology is evolving rapidly, particularly in board-to-board or chip-to chip applications. Increasingly, the electronic parts of silicon technology will carry out the data processing, while the photonic parts take care of the data communication. For the first time, this book describes the merging of photonics and electronics in silicon and other group IV elements. It presents the challenges, the limitations, and the upcoming possibilities of these developments. The book describes the evolution of CMOS integrated electronics, status and development, and the fundamentals of silicon photonics, including the reasons for its rapid expansion, its possibilities and limitations. It discusses the applications of these technologies for such applications as memory, digital logic operations, light sources, including drive electronics, optical modulators, detectors, and post detector circuitry. It will appeal to engineers in the fields of both electronics and photonics who need to learn more about the basics of the other field and the prospects for the integration of the two. - Combines the topics of photonics and electronics in silicon and other group IV elements - Describes the evolution of CMOS integrated electronics, status and development, and the fundamentals of silicon photonics

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Page Count

183

Publisher

Academic Press

Published Date

ISBN 10

0124199968

ISBN 13

9780124199965

CMOS Past, Present and Future

By: Henry Radamson,Eddy Simoen,Jun Luo,Chao Zhao

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CMOS Past, Present and Future

By: Henry Radamson,Eddy Simoen,Jun Luo,Chao Zhao

CMOS Past, Present and Future provides insight from the basics, to the state-of-the-art of CMOS processing and electrical characterization, including the integration of Group IV semiconductors-based photonics. The book goes into the pitfalls and opportunities associated with the use of hetero-epitaxy on silicon with strain engineering and the integration of photonics and high-mobility channels on a silicon platform. It begins with the basic definitions and equations, but extends to present technologies and challenges, creating a roadmap on the origins of the technology and its evolution to the present, along with a vision for future trends. The book examines the challenges and opportunities that materials beyond silicon provide, including a close look at high-k materials and metal gate, strain engineering, channel material and mobility, and contacts. The book's key approach is on characterizations, device processing and electrical measurements. - Addresses challenges and opportunities for the use of CMOS - Covers the latest methods of strain engineering, materials integration to increase mobility, nano-scaled transistor processing, and integration of CMOS with photonic components - Provides a look at the evolution of CMOS technology, including the origins of the technology, current status and future possibilities

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Page Count

280

Publisher

Woodhead Publishing

Published Date

ISBN 10

0081021402

ISBN 13

9780081021408

Analytical Methods and Instruments for Micro- and Nanomaterials

By: Henry H. Radamson,Anders Hallén,Ilya Sychugov,Alexander Azarov

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Analytical Methods and Instruments for Micro- and Nanomaterials

By: Henry H. Radamson,Anders Hallén,Ilya Sychugov,Alexander Azarov

This book describes analytical instruments widely used to characterize the nanostructured materials. It provides information about how to assess material quality, defects, the state of surfaces and interfaces, element distributions, strain, lattice distortion, and electro-optical properties of materials and devices. The information provided by this book can be used as a back-up for material processing, material design and debugging of device performance. The basic principles and methodology of each analysis technique is described in separate chapters, adding historic perspectives and recent developments. The data analysis, from simple to advanced level, is introduced by numerous examples, mostly taken from the authors' fields of research; semiconductor materials, metals and oxides. The book serves as a valuable guide for scientists and students working in materials science, physics, and engineering, who wish to become acquainted with the most important analytical techniques for nanomaterials.

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