Introduction to Introduction
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- NON-LINEAR OPTICAL SPECTROSCOPY (videos)
- Info, teasers, etc.
- Lecture 1: Introduction to non-linear spectroscopy
- Lecture 2: N-wave mixing, dynamics of driven open quantum systems
- Lecture 3: Equantions of motion for the reduced density matrix
- Lecture 4: Time-dependent Perturbation Theory, Response Functions
- Lecture 5: Liouville pathways, three pulse experiment
- Lecture 6: Geometry of the three-pulse experiment, spectroscopic lineshapes, heterodyne detection
- Lecture 7: Pump-probe spectroscopy (part 1)
- Lecture 8: Pump-probe spectroscopy (part 2)
- Lecture 9: Orientational averaging in pump-probe and magic angle
- Lecture 10: Pump-probe spectroscopy with pulse of finite temporal width
- Lecture 11: Construction of spectroscopy with simultaneous time and frequency resolutions
- Lecture 12: Two-dimensional Cohetent Fourier-transformed Spectroscopy
- Lecture 13: Properties of Two-dimensional Spectra
- Lecture 14: Overview and Summary
- BONUSES
- Bonus 1 (Lecture 15): Colinear detection of non-linear signal - phase cycling
- Bonus 2 (Lecture 16): Lineshape Dynamics - Environment Reorganization Effects in Spectroscopy