Nanoscale Field Effect Transistors
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Nanoscale Field Effect Transistors: Emerging Applications
Author: Ekta Goel, Archana Pandey
language: en
Publisher: Bentham Science Publishers
Release Date: 2023-12-20
Nanoscale Field Effect Transistors: Emerging Applications is a comprehensive guide to understanding, simulating, and applying nanotechnology for design and development of specialized transistors. This book provides in-depth information on the modeling, simulation, characterization, and fabrication of semiconductor FET transistors. The book contents are structured into chapters that explain concepts with simple language and scientific references. The core of the book revolves around the fundamental physics that underlie the design of solid-state nanostructures and the optimization of these nanoscale devices for real-time applications. Readers will learn how to achieve superior performance in terms of reduced size and weight, enhanced subthreshold characteristics, improved switching efficiency, and minimal power consumption. Key Features: Quick summaries: Each chapter provides an introduction and summary to explain concepts in a concise manner. In-Depth Analysis: This book provides an extensive exploration of the theory and practice of nanoscale materials and devices, offering a detailed understanding of the technical aspects of Nano electronic FET transistors. Multidisciplinary Approach: It discusses various aspects of nanoscale materials and devices for applications such as quantum computation, biomedical applications, energy generation and storage, environmental protection, and more. It showcases how nanoscale FET devices are reshaping multiple industries. References: Chapters include references that encourage advanced readers to further explore key topics. Designed for a diverse audience, this book caters to students, academics and advanced readers interested in learning about Nano FET devices. Readership Students, academics and advanced readers
Field Effect Transistors
Author: P. Suveetha Dhanaselvam
language: en
Publisher: John Wiley & Sons
Release Date: 2025-04-15
Field Effect Transistors is an essential read for anyone interested in the future of electronics, as it provides a comprehensive yet accessible exploration of innovative semiconductor devices and their applications, making it a perfect resource for both beginners and seasoned professionals in the field. Miniaturization has become the slogan of the electronics industry. Field Effect Transistors serves as a short encyclopedia for young minds looking for solutions in the miniaturization of semiconductor devices. It explores the characteristics, novel materials used, modifications in device structure, and advancements in model FET devices. Though many devices following Moore’s Law have been proposed and designed, a complete history of the existing and proposed semiconductor devices is not available. This book focuses on developments and research in emerging semiconductor FET devices and their applications, providing unique coverage of topics covering recent advancements and novel concepts in the field of miniaturized semiconductor devices. Field Effect Transistors is an easy-to-understand guide, making it excellent for those who are new to the subject, giving insight and analysis of recent developments and developed semiconductor device structures along with their applications.
Nanoscale Transistors
Author: Mark Lundstrom
language: en
Publisher: Springer Science & Business Media
Release Date: 2006-06-18
Silicon technology continues to progress, but device scaling is rapidly taking the metal oxide semiconductor field-effect transistor (MOSFET) to its limit. When MOS technology was developed in the 1960's, channel lengths were about 10 micrometers, but researchers are now building transistors with channel lengths of less than 10 nanometers. New kinds of transistors and other devices are also being explored. Nanoscale MOSFET engineering continues, however, to be dominated by concepts and approaches originally developed to treat microscale devices. To push MOSFETs to their limits and to explore devices that may complement or even supplant them, a clear understanding of device physics at the nano/molecular scale will be essential. Our objective is to provide engineers and scientists with that understandin- not only of nano-devices, but also of the considerations that ultimately determine system performance. It is likely that nanoelectronics will involve much more than making smaller and different transistors, but nanoscale transistors provides a specific, clear context in which to address some broad issues and is, therefore, our focus in this monograph.