This book has comprehensive coverage of the principles, basic concepts, structure, modelling, practices, and circuit applications of nanoelectronics in hardware/software security. It will also cover the future research directions in this domain.
This book has comprehensive coverage of the principles, basic concepts, structure, modelling, practices, and circuit applications of nanoelectronics in hardware/software security. It will also cover the future research directions in this domain. In this evolving era nanotechnology is converting semiconductor devices dimensions from micron technology to nanotechnology. Nanoelectronics would be the key enabler for innovation in nanoscale devices, circuits and systems.
The motive of this research book is to provide relevant theoretical frameworks that include device physics, modeling, circuit design and the latest developments in the experimental fabrication in the field of nanotechnology for hardware/software security. There are numerous challenges in development of models for nanoscale devices (e.g. FinFET, Gate-All-around devices, TFET etc.), Short Channel Effects, Fringing Effects, High leakage current and power dissipation, etc. This book will help in identifying areas where we are facing many challenges and applying many nano devices and circuits techniques to address hardware/software security aspects.
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vii | |
| Contributors |
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ix | |
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1 Emerging Nanoelectronic Devices |
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1 | (32) |
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2 A Novel Vertical Tunnel FET and Its Application in Mixed Mode |
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33 | (28) |
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3 Vertical T-Shaped Heterojunction Tunnel Field-Effect Transistor for Low Power Security Systems |
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61 | (24) |
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4 Silicene and Germanene Nanoribbons for Interconnect Applications |
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85 | (16) |
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5 Memristors and Their Applications |
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101 | (18) |
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6 Memristor: A Novel Device for Better Hardware/Software Security |
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119 | (20) |
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7 A State-of-the-Art Study on Physical Unclonable Functions for Hardware Intrinsic Security |
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139 | (24) |
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8 Review of the Medical Internet of Things-Based RFID Security Protocols |
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163 | (16) |
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9 SOA-MZI-Based Nanoscale Optical Communication with various Modulation Formats |
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179 | (22) |
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Dr. B. Elizabeth Caroline |
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10 Effect of Dielectric Material on Electrical Parameters Present near Source Region in Hetero Gate Dielectric TFET |
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201 | (16) |
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11 Quantum-Dot Cellular Automata-Based Encoder Circuit Using Layered Universal Gates |
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217 | (14) |
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12 Investigation of Nano-Structured Honeycomb Patch Antenna with Photonic Crystal Substrate |
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231 | (24) |
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Sathish Kumar Danasegaran |
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Elizabeth Caroline Britto |
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13 Silicon Micromachining for Submillimeter: Wave and THz-Technology |
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255 | (24) |
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14 Photodetectors for Security Application |
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279 | (22) |
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15 Nano-Rectifier: A Review, Current Status, and Future Scope |
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301 | (20) |
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16 Graphene SymFET and SiNW FET for IP Piracy Prevention Security Systems |
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321 | (18) |
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| Index |
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339 | |
Dr. Balwinder Raj (MIEEE'2006) has been an Associate Professor at National Institute of Technical Teachers Training and Research, Chandigarh, India, since December 2019. Earlier, he worked at National Institute of Technology (NIT, Jalandhar), Punjab, India from May 2012 to December 2019. Dr. Raj also worked as Assistant Professor at ABV-IIITM Gwalior (an autonomous institute established by Ministry of HRD, Govt. of India) July 2011 to April 2012. He received Best Teacher Award from Indian Society for Technical Education (ISTE) New Delhi on 26th July 2013. His areas of research interest are classical/non-classical nanoscale semiconductor device modeling; nanoelectronics and their applications in hardware security, sensors and circuit design, FinFET-based memory design, low power VLSI design, digital/analog VLSI design and FPGA implementation.
Dr. Arun Kumar Singh is an Associate Professor in the Department of Electronics and Communication Engineering, Punjab Engineering College (Deemed to be University), Chandigarh. Earlier to PEC, he had worked as Lecturer at Global Institute of Technology from July, 2004 to April 2006. His core research interests focus on novel, high-speed semiconductor nanodevices operating at room temperature, terahertz frequencies, and their application in energy harvesting.
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