21323a
Vorlesung
WiSe 24/25: Solids and interfaces
Catherine Dubourdieu
Hinweise für Studierende
Diese Veranstaltung findet jeweils nur im Wintersemester statt.
Zusätzl. Angaben / Voraussetzungen
Klausur and Nachklausur will be written exams
Kommentar
This course will cover the following topics:
Crystal structure: symmetry, lattice and Basis, 2D and 3D lattice types, index systems for lattice planes, close packing structures, typical metal or semiconductor or ionic structures
Wave diffraction and reciprocal lattice: Bragg Law, Fourier analysis, Laue condition, Brillouin zones
Crystal Binding: van der Waals interaction, Lennard-Jones potential, Latiice Constants, Cohesive Energy
Electrical conductivity in metals: Drude model, free electron Fermi gas (energy levels, Fermi-Dirac distribution), energy bands, Bloch function
Semiconductors: band structure, nearly-free electron model, holes, effective mass, doping
Phonons: Planck distribution, DOS, Debye law, Einstein model (if time permits) Free electron Fermi gas: energy levels, Fermi-Dirak distribution, free electron gas
Point defects and diffusion: vacancy, interstitial, Frenkel, Schottky, F-centre
Surface and interface properties: electronic and atomic structure, Work function, relaxation and reconstruction
Imaging techniques for surfaces and nanostructures: electron microscopy, X-ray photoelectron spectroscopy, scanning tuneling microscopy, atomic force microscopy
Schließen
Crystal structure: symmetry, lattice and Basis, 2D and 3D lattice types, index systems for lattice planes, close packing structures, typical metal or semiconductor or ionic structures
Wave diffraction and reciprocal lattice: Bragg Law, Fourier analysis, Laue condition, Brillouin zones
Crystal Binding: van der Waals interaction, Lennard-Jones potential, Latiice Constants, Cohesive Energy
Electrical conductivity in metals: Drude model, free electron Fermi gas (energy levels, Fermi-Dirac distribution), energy bands, Bloch function
Semiconductors: band structure, nearly-free electron model, holes, effective mass, doping
Phonons: Planck distribution, DOS, Debye law, Einstein model (if time permits) Free electron Fermi gas: energy levels, Fermi-Dirak distribution, free electron gas
Point defects and diffusion: vacancy, interstitial, Frenkel, Schottky, F-centre
Surface and interface properties: electronic and atomic structure, Work function, relaxation and reconstruction
Imaging techniques for surfaces and nanostructures: electron microscopy, X-ray photoelectron spectroscopy, scanning tuneling microscopy, atomic force microscopy
Schließen
16 Termine
Regelmäßige Termine der Lehrveranstaltung
Di, 15.10.2024 08:00 - 10:00
Di, 22.10.2024 08:00 - 10:00
Di, 29.10.2024 08:00 - 10:00
Di, 05.11.2024 08:00 - 10:00
Di, 12.11.2024 08:00 - 10:00
Di, 19.11.2024 08:00 - 10:00
Di, 26.11.2024 08:00 - 10:00
Di, 03.12.2024 08:00 - 10:00
Di, 10.12.2024 08:00 - 10:00
Di, 17.12.2024 08:00 - 10:00
Di, 07.01.2025 08:00 - 10:00
Di, 14.01.2025 08:00 - 10:00
Di, 21.01.2025 08:00 - 10:00
Di, 28.01.2025 08:00 - 10:00
Di, 04.02.2025 08:00 - 10:00
Di, 11.02.2025 08:00 - 10:00