PurdueX: Fundamentals of Nanoelectronics, Part B: Quantum Transport
Explore quantum transport in nanoscale devices and spintronics in this introductory nanotechnology course.
- Duration
- 4 weeks
- Price Value
- $ 50
- Difficulty Level
- Intermediate
Fundamentals of Nanoelectronics, Part B: Quantum Transport
An intermediate-level course offered by PurdueX
Course Description
Embark on an exciting journey into the world of nanoelectronics with this intermediate-level course offered by PurdueX. "Fundamentals of Nanoelectronics, Part B: Quantum Transport" is a cutting-edge nanotechnology course that delves deep into the fascinating realm of nanoelectronic devices and mesoscopic physics. This course is designed to provide students with a comprehensive understanding of advanced topics in nanoelectronics, even if they have no prior background in quantum mechanics.
What students will learn
- Introduction to the Tight-binding Method
- Non-Equilibrium Green's Function (NEGF) Method
- Application of NEGF to Problems in Quantum Transport
- Advanced insights into the Schrodinger Equation
- Basics of Spintronics
- Fundamentals of nanoelectronics and mesoscopic physics
- Cutting-edge developments in nanotechnology
Prerequisites
While the course is designed to be accessible to students from various branches of science and engineering, some basic prerequisites include:
- Familiarity with calculus
- Elementary knowledge of differential equations
- Understanding of matrix algebra
No prior knowledge of quantum mechanics is required, making this course ideal for those looking to enter the field of nanotechnology.
Course Coverage
- Advanced topics in nanoelectronics
- Quantum transport analysis in nanoscale devices
- Non-Equilibrium Green's Function (NEGF) method
- Application of the Schrodinger Equation
- Spintronics basics
- Tight-binding method
- Spin transport
Who this course is for
- Students in any branch of science or engineering
- Professionals looking to expand their knowledge in nanoelectronics
- Researchers interested in quantum mechanics and nanotechnology
- Anyone fascinated by the potential of nanoelectronic devices
Real-world Applications
The skills acquired in this course have numerous real-world applications:
- Designing and developing advanced nanoelectronic devices
- Improving smartphone technology and other electronic gadgets
- Contributing to cutting-edge research in quantum transport and spintronics
- Solving complex problems in nanoscale physics
- Advancing the field of nanotechnology to meet future challenges
About the Course
This course is part of the nanoHUB-U project, jointly funded by Purdue and the National Science Foundation. It aims to transcend disciplines through short, accessible courses focused on cutting-edge topics in nanotechnology. By completing this course, students will be well-prepared to join the exciting field of nanotechnology and contribute to shaping the future of electronics in the 21st century.