<p dir="ltr" style="text-align: left;"><strong>Topics to be addressed in the course include:</strong></p><ul><li>Second quantization (occupation number representation) for fermions</li><li>Electron-electron interaction<ul><li>Homogeneous electron gas</li><li>Dielectric function and screening</li><li>Plasmons</li><li>Excitons</li></ul></li><li>Electron-phonon interaction<ul><li>Models of electron-phonon coupling</li><li>Polarons</li><li>Electron-phonon scattering</li></ul></li><li>Electronic transport in solids<ul><li>Phenomenological transport theory: Drude model</li><li>Kinetic theory: Boltzmann equation</li><li>Quantum kinetics</li></ul></li><li>Electron-light interaction<ul><li>Macroscopic and microscopic description</li><li>Light-induced dynamics</li><li>Optical Bloch equations</li><li>Semiconductor Bloch equations</li></ul></li><li>Superconductivity<ul><li>Attractive interaction mediated by phonons</li><li>Cooper pairs</li><li>BCS theory</li></ul></li></ul><p> </p><p>This lecture and the correspondig exercises (114119) replace the former course "Solid state theory II".</p>

Inhalt der Vorlesung: Second quantization (occupation number representation) for fermions; Electron-electron interaction; Homogeneous electron gas; Dielectric function and screening;Plasmons; Excitons; Electron-phonon interaction; Models of electron-phonon coupling; Polarons;Electron-phonon scattering; Electronic transport in solids; Phenomenological transport theory: Drude model; Kinetic theory: Boltzmann equation; Quantum kinetics; Electron-light interaction; Macroscopic and microscopic description; Light-induced dynamics; Optical Bloch equations; Semiconductor Bloch equations; Superconductivity; Attractive interaction mediated by phonons; Cooper pairs; BCS theory. Diese Vorlesung deckt zusammen mit den Übungen den Inhalt der früheren Lehrveranstaltung "Festkörpertheorie II" ab.

Kurs im HIS-LSF