Experiments
- AG - astrophysics and geophysics
- BK - biophysics and complex systems
- FM - solid state physics and physics of materials
- KT - nuclear physics and particle physics
BK - biophysics and complex systems
- AG.RBK - Rayleigh-Bénard Convection
- BK.ABB - Analysis of Brownian Motion
- BK.CMF - Computational Microfluidics (Digital Lab)
- BK.MDS - Molecular Dynamics Simulations of Proteins
- BK.MIF - Microfluidics
- BK.NLF - Nd:YAG Laser and Second-harmonic generation
- BK.NSE - Nanostructuring by means of Electron Beam Lithography
- BK.OTM - Assembling an optical tweezers microscope
- BK.PKR - Phase Contrast Radiography
- BK.SLM - X-ray reflectivity study of lipid membranes
- BK.STM - STED Microscopy
- BK.TRS - Total Reflection of X-rays and X-ray Reflectivity of Thin Films
- BK.WFS - Wavefront sensor for laser beam and optics characterization
BK.NLF - Nd:YAG Laser and Second-harmonic generation
This experiment is currently not available.
In this experiment, you will learn the laser principle, the laser dynamics and nonlinear optics (frequency doubling) on a concrete laser system. laser system. For this purpose, a diode-pumped Nd:YAG laser (wavelength 1064 nm) is assembled from individual components on an an optical bench. The characteristic properties of the components and the finished laser are measured. Finally, an attempt will be made to determine the frequency doubling crystal to generate large laser radiation (at 532 nm). generated.