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Full Description
This book aims to provide information in the ever-growing field of low-power electronic devices and their applications in portable devices, wireless communication, sensor, and circuit domains. Negative Capacitance Field Effect Transistors: Physics, Design, Modeling and Applications discusses low-power semiconductor technology and addresses state-of-the-art techniques such as negative capacitance field effect transistors and tunnel field effect transistors. The book is split into three parts.
The first part discusses the foundations of low-power electronics, including the challenges and demands and concepts such as subthreshold swing. The second part discusses the basic operations of negative capacitance field effect transistors (NCFETs) and tunnel field effect transistors (TFETs). The third part covers industrial applications including cryogenics and biosensors with NC-FET.
This book is designed to be a one-stop guide for students and academic researchers, to understand recent trends in the IT industry and semiconductor industry. It will also be of interest to researchers in the field of nanodevices such as NC-FET, FinFET, tunnel FET, and device-circuit codesign.
Contents
Part 1: Foundations of Low Power Electronics. 1. Recent Challenges in IT and Semiconductor Industry: From Von Neumann Architecture to the Future. 2. Technical Demands of Low-Power Electronics. 3. Negative capacitance Field Effect Transistors: Concept and Technology. Part 2: Negative Capacitance Field Effect Transistor. 4. Basic Operation Principle of Negative Capacitance Field Effect Transistor. 5. Basic Operational Principle of Anti-ferroelectric Materials and Ferroelectric Materials. 6. Basic Operation Principle of Optimized NCFET: Amplification Perspective. 7. Spin Based Magnetic Devices With Spintronics. Part 3: Industrial Application. 8. Mathematical Approach for Future Semiconductor Roadmap. 9. Mathematical Approach for Foundation of Negative Capacitance Technology.
