„Applied Solid State Physics” változatai közötti eltérés
A Fizipedia wikiből
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'''2 Semiconductor devices:''' band structure engineering, p-n junction and the transistor. | '''2 Semiconductor devices:''' band structure engineering, p-n junction and the transistor. | ||
*Steven H. Simon - The Oxford Solid State Basics, Chapter 18 | *Steven H. Simon - The Oxford Solid State Basics, Chapter 18 | ||
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| + | '''3 Electron transport in nanowires:''' Characteristic length-scales, conductance of a quantum wire, Landauer formula, conductance quantization | ||
| + | *[[Electron transport in nanowires: Landauer formula, conductance quantization]] (e-learning material) | ||
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| + | '''4 Thermoelectric phenomena in nanowires:''' Seebeck and Peltier effect, heat conduction and Wiedemann-Franz law | ||
| + | *[[Thermoelectric phenomena]] (e-learning material) | ||
'''4 Magnetism:''' | '''4 Magnetism:''' | ||
*Steven H. Simon - The Oxford Solid State Basics, Chapter 20-22 | *Steven H. Simon - The Oxford Solid State Basics, Chapter 20-22 | ||
| − | '''5 Superconductivity:''' | + | '''5 Superconductivity: macroscopic wave function and the Meissner effect''' |
*[http://www.feynmanlectures.caltech.edu/III_21.html The Feynman lectures on Physics: ''The Schrödinger Equation in a Classical Context: A Seminar on Superconductivity''] | *[http://www.feynmanlectures.caltech.edu/III_21.html The Feynman lectures on Physics: ''The Schrödinger Equation in a Classical Context: A Seminar on Superconductivity''] | ||
A lap 2019. május 21., 21:29-kori változata
General data
- Course name: Applied Solid State Physics
- Course code: BMETE11AF11;
- Requirements: 2/0/0/V/2;
- Semester: Fall;
- Language: English;
- Responsible teacher: Szabolcs Csonka, associate professor
- Lecturer: Máté Vigh, assistant professor
- Department: Department of Physics
- Programme: BSc Physics (mandatory) and MSc Physics (recommended for students without preliminary studies in solid state physics)
- Exam: Written/Oral exam at the end of semester
Topics
1 Semiconductor physics: band structure, electrons and holes, impurity doping, statistical mechanics of semiconductors.
- Steven H. Simon - The Oxford Solid State Basics, Chapter 17
2 Semiconductor devices: band structure engineering, p-n junction and the transistor.
- Steven H. Simon - The Oxford Solid State Basics, Chapter 18
3 Electron transport in nanowires: Characteristic length-scales, conductance of a quantum wire, Landauer formula, conductance quantization
- Electron transport in nanowires: Landauer formula, conductance quantization (e-learning material)
4 Thermoelectric phenomena in nanowires: Seebeck and Peltier effect, heat conduction and Wiedemann-Franz law
- Thermoelectric phenomena (e-learning material)
4 Magnetism:
- Steven H. Simon - The Oxford Solid State Basics, Chapter 20-22
5 Superconductivity: macroscopic wave function and the Meissner effect
Literature
Steven H. Simon: The Oxford Solid State Basics
N. W. Ashcroft and N. D. Mermin: Solid State Physics
C. Kittel: Introduction to Solid State Physics
