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Lern- und Qualifikationsziele Part 1: Nonlinear response at the microscopic level - Fundamentals of Light-Matter Interaction - Derivation of nonlinear susceptibilities using time-dependent perturbation theory - Quadratic and cubic susceptibility, Kerr effect
Part 2: Nonlinear macroscopic response - Different equations used for the description of nonlinear light propagation: Slowly varying envelope approximation, weak reflection approximation etc. - Wave mixing: Second Harmonic Generation, Difference Frequency Generation - Phase Matchting - Propagation in media with Kerr nonlinearity: Self-phase modulation, self-steepening, spectral broadening of the pulse - Optical phase conjugation, - Nonlinear Schroedinger equation and temporal solitons in Kerr media - Self-focusing: critical power and self-focusing length
Part 3: Current frontiers: - Laser filamentation - Electromagnetically induced transparency and Slow light - High harmonic generation - Above Threshold Ionization Voraussetzungen Bachelor in Physik, Grundkenntnisse in Optik und Quantenmechanik
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