PTCEC339 Syllabus - Fundamentals Of Nanoelectronics - 2023 Regulation Anna University

PTCEC339 Syllabus - Fundamentals Of Nanoelectronics - 2023 Regulation Anna University

PTCEC339

FUNDAMENTALS OF NANOELECTRONICS

 L T P C

2 0 2 3

COURSE OBJECTIVES:
• To understand the concepts of nano electronics and quantum electronics
• To understand the concepts of nano electronic devices, transistors, tunneling devices and superconducting devices
• To understand the basics of nanotube devices

UNIT I

INTRODUCTION TO NANO ELECTRONICS

6

Scaling to nano - Light as a wave and particle- Electrons as waves and particles- origin of quantum mechanics - General postulates of quantum mechanics - Time independent Schrodinger wave equation- Electron confinement - Quantum dots, wires and well-Spin and angular momentum

UNIT II

QUANTUM ELECTRONICS

6

Quantum electronic devices - Short channel MOS transistor - Split gate transistor - Electron wave transistor - Electron wave transistor - Electron spin transistor - Quantum cellular automata-Quantum dot array, Quantum memory.

UNIT III

NANO ELECTRONIC TRANSISTORS

6

Coulomb blockade - Coulomb blockade in Nano capacitors - Coulomb blockade in tunnel junctions - Single electron transistors, Semiconductor nanowire FETs and SETs, Molecular SETs and molecular electronics - Memory cell.

UNIT IV

NANO ELECTRONIC TUNNELING AND SUPER CONDUCTING DEVICES

6

Tunnel effect -Tunneling element -Tunneling diode - Resonant tunneling diode - Three terminal resonant tunneling devices- Superconducting switching devices- Cryotron- Josephson tunneling device.

UNIT V

NANOTUBES AND NANOSTRUCTURE DEVICES

6

Carbon Nanotube - Fullerenes - Types of nanotubes – Formation of nanotubes –Assemblies – Purification of carbon nanotubes – Electronic properties – Synthesis of carbon nanotubes – Carbon nanotube interconnects – Carbon nanotube FETs and SETs –Nanotube for memory applications- Nano structures and nano structured devices.

30 PERIODS

PRACTICAL EXERCISES: 30 PERIODS
T-CAD/ Any other relevant software based Simulations
   1. Field Effect Transistors
   2. Single Electron Transistors
   3. Tunneling devices

COURSE OUTCOMES: Upon completion of this course, the students will be able to
CO1: Understand the basics of nano electronics including quantum wires, dots and wells
CO2: Use the mechanism behind quantum electronic devices
CO3: Analyze the key performance aspects of tunneling and superconducting nano electronic devices
CO4: Apply the knowledge in the development of nanotubes and nanostructure devices

TOTAL:60 PERIODS

TEXT BOOKS:
1. Hanson, Fundamentals of Nanoelectronics, Pearson education, 2009.

REFERENCES:
1. Jan Dienstuhl, Karl Goser, and Peter Glösekötter, Nanoelectronics and Nanosystems: From Transistors to Molecular and Quantum Devices, Springer-Verlag, 2004.
2. Mircea Dragoman and Daniela Dragoman, Nanoelectronics: Principles and Devices, Artech House, 2009.
3. Robert Puers, Livio Baldi, Marcel Van de Voorde and Sebastiaan E. Van Nooten, Nanoelectronics: Materials, Devices, Applications, Wiley, 2017.
4. Brajesh Kumar Kaushik, Nanoelectronics: Devices, Circuits and Systems, Elsevier science, 2018

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