Study-unit DEVICE PHYSICS

Course name	Physics
Study-unit Code	A001120
Location	PERUGIA
Curriculum	Fisica della materia
Lecturer	Luca Gammaitoni
Lecturers	Luca Gammaitoni
Hours	42 ore - Luca Gammaitoni
CFU	6
Course Regulation	Coorte 2023
Supplied	2023/24
Supplied other course regulation	Coorte 2022 - Will supplied in year 2023
Learning activities	Affine/integrativa
Area	Attività formative affini o integrative
Sector	FIS/03
Type of study-unit	Opzionale (Optional)
Type of learning activities	Attività formativa monodisciplinare
Language of instruction	Italian
Contents	- Introduction to device physics - Semiconductor devices - Heterostructures - Quantum Technologies - Laser - Superconductivity - Devices operated in the presence of large fluctuations
Reference texts	- Nanotechnology for Microelectronics and Optoelectronics, 2006, p.301. J.M. Martínez-Duart et al. - Quantum wells, wires and dots, 2007, P. Harrison, Wiley - Quantum transport: atom to transistor, 2005, S. Datta. Cambridge
Educational objectives	To grasp the basic elements of the physics behind the functioning of nanotechnology devices.
Prerequisites	Basic knowledge of condensed matter physics and quantum mechanics.
Teaching methods	Frontal lecture
Other information	Ask the teacher
Learning verification modality	Colloquium
Extended program	English program: - Introduction to device physics - Semiconductor devices - short review of solid state and semiconductor physics. - electrons in nanostructures: semiconductor heterojunctions, quantum wells, superlattices, etc. - transport and optical properties of nanostructures. - advanced semiconductor devices based on nanostructures. Transistors and lasers. - Superconductivity - Quantum Technologies: quantum computing, quantum criptography, topological properties - Devices operated in the presence of large fluctuations
Obiettivi Agenda 2030 per lo sviluppo sostenibile	4,7,9,11