Exercise sheet 1 : Particle in a box, Three-dimensional electron gas and Frequency-dependent conductivity of a free electron gas.
Exercise sheet 2 : Carrier density in a semiconductor, Intrinsic semiconductor, Doped semiconductors and Some simple calculations.
Exercise sheet 3 : Occupation of dopant levels, Electrons in the conduction band of a doped semiconductor and At which energy are most of the carriers?
Exercise sheet 1 : Center of mass and laboratory frames, Inelastic process and threshold energy, Decay in the center of mass frame and Mandelstam variables.
Exercise sheet 2 : The pion parity, Proton-antiproton annihilation, CP-symmetry violation, Oscillations of neutral mesons, Neutrino oscillation and Spin 1 rotation and W meson decay.
Exercise sheet 3/4 : Phase space factor, Strong interaction, Sigma Decays, Possible and impossible processes, Top quark production at the TeVatron and The GIM mechanism.
Exercise sheet 1 : Hermitian operators, Expectation values, Uncertainty relation, Baker-Campbell-Hausdorff formula and Temporal evolution of a two-level system.
Exercise sheet 2 : Stark effect in atomic Hydrogen, Two-dimensional harmonic oscillator.
Exercise sheet 3 : Introduction to time-dependent perturbation theory, sudden perturbation with constant amplitude.
Exercise sheet 4 : Coupling of two spin-1/2 particles, Coupling of two angular momenta l=1, Properties of Clebsch-Gordan coefficients and Wignet Eckart theorem.
Exercise sheet 5 : Zeeman effect and spin-orbit coupling on the 2p state of the hydrogen atom.
Exercise sheet 6 : Properties of the density matrix, Pure and mixed states, Temporal evolution of the density matrix.