„Applied Solid State Physics” változatai közötti eltérés

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(Topics)
(Topics)
27. sor: 27. sor:
  
 
'''5 Coherent and incoherent transport:''' four probe resistance, coherent and incoherent serial connection of scattering centers, demonstration of Ohm's law.  
 
'''5 Coherent and incoherent transport:''' four probe resistance, coherent and incoherent serial connection of scattering centers, demonstration of Ohm's law.  
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*[[media:Coherent and incoherent transport.pdf|Coherent and incoherent transport]] (powerpoint slides)
  
 
'''6 The Boltzmann equation:''' non-equilibrium distribution function, the Boltzmann equation in the relaxation time approximation, solution of the Boltzmann equation in finite tamparature gradient or in finite electric field. Calculation of the conductance in an isotropic system. Thermoelectric phenomena. Temperature dependence of the resistance in metals.  
 
'''6 The Boltzmann equation:''' non-equilibrium distribution function, the Boltzmann equation in the relaxation time approximation, solution of the Boltzmann equation in finite tamparature gradient or in finite electric field. Calculation of the conductance in an isotropic system. Thermoelectric phenomena. Temperature dependence of the resistance in metals.  

A lap 2019. május 21., 21:06-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

4 Thermoelectric phenomena in nanowires: Seebeck and Peltier effect, heat conduction and Wiedemann-Franz law

5 Coherent and incoherent transport: four probe resistance, coherent and incoherent serial connection of scattering centers, demonstration of Ohm's law.

6 The Boltzmann equation: non-equilibrium distribution function, the Boltzmann equation in the relaxation time approximation, solution of the Boltzmann equation in finite tamparature gradient or in finite electric field. Calculation of the conductance in an isotropic system. Thermoelectric phenomena. Temperature dependence of the resistance in metals.

7 Magnetism: ????????

  • Steven H. Simon - The Oxford Solid State Basics, Sections ???

8 Superconductivity: Phenomenology of superconductors. 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