WiSe 23/24: Advanced Optics
Tobias Kampfrath
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Advanced optics: summary
Light is ubiquitous in daily life and a powerful tool in natural sciences. This lecture course will provide an introduction into the principles and applications of modern optics. Questions that will be addressed are for example: What are light waves and light rays? How can we describe light propagation in matter? Why are evanescent waves useful in touch pads? What is the diffraction limit and how can it be overcome? How can ultrashort laser pulses take movies of the vibration of molecules and precession of spins?
A rough outline of the lecture course is as follows:
- Maxwell equations, light-matter interaction, wave optics
- Plane waves: reflection, refraction, polarization
- Light beams: diffraction limit, Gaussian beams, Fourier optics
- Femtosecond lasers and nonlinear optics
In the exercises, the course topics will be illustrated by practical examples, both analytical and numerical using the Python package.
Useful literature, but not mandatory:
L. Novotny, B. Hecht: Principles of Nano-Optics, Cambridge University Press, 2006
close16 Class schedule
Regular appointments