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| − | ==General data==
| + | The webpage of this course has moved [http://physics.bme.hu/BMETE11AF11_kov?language=en here]. |
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| − | *Course name: Applied Solid State Physics
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| − | *Course code: BMETE11AF11;
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| − | *Requirements: 2/0/0/V/2;
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| − | *Semester: Fall;
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| − | *Language: English;
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| − | *Responsible teacher: [http://dept.physics.bme.hu/Csonka_Szabolcs?language=en Szabolcs Csonka], associate professor
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| − | *Lecturer: Máté Vigh, assistant professor
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| − | *Department: Department of Physics
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| − | *Programme: BSc Physics (mandatory) and MSc Physics (recommended for students without preliminary studies in solid state physics)
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| − | *Exam: Written/Oral exam at the end of semester
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| − | ==Topics==
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| − | # Semiconductor physics: band structure, electrons and holes, impurity doping, statistical mechanics of semiconductors. (Steven H. Simon - The Oxford Solid State Basics, Chapter 17)
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| − | # Semiconductor devices: band structure engineering, p-n junction and the transistor. (Steven H. Simon - The Oxford Solid State Basics, Chapter 18)
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| − | # Magnetism: (Steven H. Simon - The Oxford Solid State Basics, Chapter 20-22)
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| − | 2. Heat capacity of solids: Einstein's model and Debye's model
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| − | 3. Electrons in metals: Drude theory
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| − | 4. More electrons in metals: Sommerfeld (free electron) theory
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| − | 5. One-dimensional model of compressibility, sound and thermal expansion
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| − | 6. Vibrations of a one-dimensional atomic chain
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| − | 7. Geometry of solids: crystal structure, lattice, reciprocal lattice, Brillouin-zone
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| − | 8. X-ray diffraction: Miller indices, Laue and Bragg conditions
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| − | 9. X-ray diffraction II.: systematic absences, powder diffraction
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| − | 10. Electrons in solids: nearly free electron model, Bloch's theorem, electronic bands
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| − | 11. Electrons in solids II.: tight binding model
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| − | ==Literature==
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| − | Steven H. Simon: ''The Oxford Solid State Basics''
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| − | N. W. Ashcroft and N. D. Mermin: ''Solid State Physics''
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| − | C. Kittel: ''Introduction to Solid State Physics''
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