Contenu de la matière
1) Introduction to nanoelectronics and quantum computing.
- Overview of nanoelectronics and its role in quantum computing.
- Introduction to quantum computing principles and applications.
2) Nanotransistors: Principles, development, and applications.
- Introduction to transistors and their historical development.
- Principles of operation for different types of transistors.
- Applications of transistors in various electronic systems and circuits.
3) Fundamentals of nanoscale devices.
- Properties of nanoscale materials and devices.
- Quantum mechanics principles relevant to nanoelectronics.
- The miniaturization and computing.
4) Nanoelectronic platforms for quantum computing.
5) Nanofabrication techniques for quantum devices.
6) Experimental methods and measurement techniques for quantum devices.
7) Future directions and emerging trends.
- Recent advancements in nanoelectronics for quantum computing.
- Promising research areas and potential applications.
8) Final projects and presentations.
- Individual or group projects related to nanoelectronics in quantum computing.
- Presentation of findings and insights.