Quantenmechanik II
Vorlesung:
Di. + Fr. 8.30 - 10.00 Uhr, Jungiusstraße 9, Hörsaal III
Klausurtermine:
23.02.2018 10.00 - 12.00 Uhr, ILP Seminarraum, EG, Geb. 69, Luruper Chaussee 149, 22761 Hamburg
23.03.2018 10.00 - 12.00 Uhr, ZOQ Seminarraum, EG, Geb. 90, Luruper Chaussee 149, 22761 Hamburg
Als Hilfsmittel darf ein (ggf. beidseitig) handbeschriebenes DinA4 Blatt benutzt werden.
Topics / Contents:
I. The variation method
Szabo & Ostlund: Modern Quantum Chemistry (Dover Publications)
II. The Born-Oppenheimer approximation and adiabatic separation
PS: Lecture Moderne Quantenphysik der Moleküle
III. Many-body theory and second quantization: Fundamentals
Gross, Runge & Heinonen: Many-particle theory (Institute of Physics Publishing); Szabo & Ostlund: Modern Quantum Chemistry (Dover Publications)
IV. Hartree-Fock theory and approximation
Szabo & Ostlund: Modern Quantum Chemistry (Dover Publications)
V. Electronic correlations: Configuration interaction and coupled cluster theory
Szabo & Ostlund: Modern Quantum Chemistry (Dover Publications); Helgaker: Molecular electronic-structure theory (Wiley)
VI. (Many-body) perturbation theory
Helgaker: Molecular electronic-structure theory (Wiley)
VII. Time-dependent pertubation theory
VIII. Correlation functions and linear response
Schwabl: Quantenmechanik für Fortgeschrittene (Springer)
IX. Scattering theory and resonances
Sakurai: Modern Quantum Mechanics (Benjamin/Cummings Publ. Co)
X. Nonperturbative phenomena in quantum physics: Atoms in strong external fields (slides)
XI. Path integrals in quantum mechanics
XII. Measurements in quantum mechanics (Wiseman and Milburn. "Quantum Measurement and Control", Cambridge)