Nanoscale devices: physics, modeling, and their application

✍ Scribed by Kaushik, Brajesh Kumar

Publisher: Taylor & Francis;CRC
Year: 2019
Tongue: English
Leaves: 453
Category: Library

No coin nor oath required. For personal study only.

✦ Table of Contents

Content: Section I Nanoscale Transistors1. Simulation of Nanoscale Transistors from Quantum and MultiphysicsPerspective[Zhipeng Dong, Wenchao Chen, Wen-Yan Yin, and Jing Guo]2. Variability in Nanoscale Technology and E DC MOS Transistor[Sarmista Sengupta and Soumya Pandit]3. Effect of Ground Plane and Strained Silicon on Nanoscale FET Devices[Saurabh Chaudhury and Avtar Singh]Section II Novel MOSFET Structures4. U-Shaped Gate Trench Metal Oxide Semiconductor Field Effect Transistor:Structures and Characteristics[Deepshikha Bharti and Aminul Islam]5. Operational Characteristics of Vertically Diffused Metal OxideSemiconductor Field Effect Transistor[Deepshikha Bharti and Aminul Islam]6. Modeling of Double-Gate MOSFETs[D. Nirmal and J. Ajayan]Section III Modeling of Tunnel FETs7. TFETs for Analog Applications[Marcio Dalla Valle Martino, Paula Ghedini Der Agopian, Joao Antonio Martino,Eddy Simoen, and Cor Claeys]8. Dual Metal-Double Gate Doping-Less TFET: Design and Investigations[Ramandeep Kaur, Rohit Dhiman, and Rajeevan Chandel]Section IV Graphene and Carbon Nanotube Transistorsand Applications9. Modeling of Graphene Plasmonic Terahertz Devices[Neetu Joshi and Nagendra P. Pathak]10. Analysis of CNTFET for SRAM Cell Design[Shashi Bala and Mamta Khosla]11. Design of Ternary Logic Circuits Using CNFETs[Chetan Vudadha and M. B. Srinivas]Section V Modeling of Emerging Non-Silicon Transistors12. Different Analytical Models for Organic Thin-Film Transistors: Overviewand Outlook[W. Boukhili and R. Bourguiga]13. A Fundamental Overview of High Electron Mobility Transistorand Its Applications[D. Nirmal and J. Ajayan]Section VI Emerging Nonvolatile Memory Devicesand Applications14. Spintronic-Based Memory and Logic Devices[Jyotirmoy Chatterjee, Pankaj Sethi, and Chandrasekhar Murapaka]15. Fundamentals, Modeling, and Application of Magnetic Tunnel Junctions[Ramtin Zand, Arman Roohi, and Ronald F. DeMara]16. RRAM Devices: Underlying Physics, SPICE Modeling, and CircuitApplications[Firas Odai Hatem, T. Nandha Kumar, and Haider A. F. Almurib]17. Evaluation of Nanoscale Memristor Device for Analog and DigitalApplication[Jeetendra Singh and Balwinder Raj]Section I Nanoscale TransistorsChapter 1: Simulation of Nanoscale Transistors from Quantum and Multiphysics PerspectiveZhipeng Dong, Wenchao Chen, Wen-Yan Yin, and Jing Guo Chapter 2: Variability in Nanoscale Technology and E DC MOS TransistorSarmista Sengupta and Soumya Pandit Chapter 3: Effect of Ground Plane and Strained Silicon on Nano-scale FET DevicesSaurabh Chaudhury and Avtar Sing Section II Novel MOSFET StructuresChapter 4: U-shaped Gate Trench Metal Oxide Semiconductor Field Effect Transistor: Structures and CharacteristicsDeepshikha Bharti and Aminul Islam Chapter 5: Operational Characteristics of Vertically Diffused Metal Oxide Semiconductor Field Effect TransistorDeepshikha Bharti and Aminul Islam Chapter 6: Modeling of Double Gate MOSFETsD.Nirmal and J.AjayanSection III Modeling of Tunnel FETsChapter 7: TFETs for analog applications.M.D.V. Martino, P.G.D. Agopian, J.A. Martino, E. Simoen and C. Claeys Chapter 8: Dual Metal-Double Gate Doping Less TFET: Design and InvestigationsRamandeep Kaur, Rohit Dhiman and Rajeevan ChandelSection IV Graphene and Carbon Nanotube Transistors and ApplicationsChapter 9: Modeling of Graphene plasmonic terahertz devicesNeetu Joshi and Nagendra P. Pathak Chapter 10: Analysis of CNTFET for SRAM Cell DesignShashi Bala and Mamta Khosla Chapter 11: Design of Ternary Logic Circuits Using CNFETsChetan Vudadha and M.B.Srinivas Section V Modeling of Emerging Non-Silicon TransistorsChapter 12: Different analytical models for organic thin film transistors: overview and outlookW. Boukhili and R. BourguigaChapter 13: A Fundamental Overview of High Electron Mobility Transistor and its ApplicationsD.Nirmal and J.AjayanSection VI Emerging Non-Volatile Memory Devices and ApplicationsChapter 14: Spintronic based memory and logic devicesJyotirmoy Chatterjee, Pankaj Sethi and Chandrasekhar Murapaka Chapter 15: Fundamentals, Modeling and Application of Magnetic Tunnel JunctionsRamtin Zand, Arman Roohi and Ronald F. DeMara Chapter 16: RRAM Devices: Underlying Physics, SPICE Modelling and Circuit ApplicationsFiras Odai Hatem, T. Nandha Kumar and Haider A. F. Almurib Chapter 17: Evaluation of Nanoscale Memristor Device for Analog and Digital ApplicationJeetendra Singh, and Balwinder Raj

✦ Subjects

Nanoelectronics;Nanoelectromechanical systems;Nanotechnology

📜 SIMILAR VOLUMES

Nanoscale Devices: Physics, Modeling, an

📁 Nanoscale Devices: Physics, Modeling, and Their Application

✍ Brajesh Kumar Kaushik 📂 Library 📅 2019 🏛 CRC 🌐 English

The primary aim of this book is to discuss various aspects of nanoscale device design and their applications including transport mechanism, modeling, and circuit applications. Provides a platform for modeling and analysis of state-of-the-art devices in nanoscale regime, reviews issues related to

Nanoscale Electronic Devices and Their A

📁 Nanoscale Electronic Devices and Their Applications

✍ Khurshed Ahmad Shah, Farooq Ahmad Khanday 📂 Library 📅 2020 🏛 CRC Press 🌐 English

Nanoscale Electronic Devices and Their Applications helps readers acquire a thorough understanding of the fundamentals of solids at the nanoscale level in addition to their applications including operation and properties of recent nanoscale devices. This book includes seven chapt

Nanoscale Electronic Devices and Their A

📁 Nanoscale Electronic Devices and Their Applications

✍ Khurshed Ahmad Shah (Author); Farooq Ahmad Khanday (Author) 📂 Library 📅 2020 🏛 CRC Press

Coupled Mathematical Models for Physical

📁 Coupled Mathematical Models for Physical and Biological Nanoscale Systems and Their Applications

✍ Luis L. Bonilla, Efthimios Kaxiras, Roderick Melnik 📂 Library 📅 2018 🏛 Springer International Publishing 🌐 English

This volume gathers selected contributions from the participants of the Banff International Research Station (BIRS) workshop Coupled Mathematical Models for Physical and Biological Nanoscale Systems and their Applications, who explore various aspects of the analysis, modeling and applic

Nanoscale Transistors: Device Physics, M

📁 Nanoscale Transistors: Device Physics, Modeling and Simulation

✍ Mark S. Lundstrom, Jing Guo (auth.) 📂 Library 📅 2006 🏛 Springer US 🌐 English

NANOSCALE TRANSISTORS: Device Physics, Modeling and Simulation describes the recent development of theory, modeling, and simulation of nanotransistors for electrical engineers, physicists, and chemists working with nanoscale devices. Simple physical pictures an

Nanoscale Transistors: Device Physics, M

📁 Nanoscale Transistors: Device Physics, Modeling and Simulation

✍ Mark Lundstrom, Jing Guo 📂 Library 📅 2005 🏛 Springer 🌐 English

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 w