Experimental Physics 1 module within the Bachelor course IPSP
Winter semester 20/21
- Trainer/in: lecture hall
- Trainer/in: Patrick Irmisch
- Trainer/in: Dominik Kauert
- Trainer/in: Friederike Lühmann
- Trainer/in: Axel Märcker
- Trainer/in: Ralf Seidel
Biological and Soft Matter systems often posses a highly complex structure and and dynamics. This is typically the result of collective interactions between many singly passive or active molecules which constitute the system. For an understanding of the macroscopic properties, it is necessary to have detailed knowledge about the molecular properties of the systems. This course aims at introducing mechanical and optical techniques, which can be used to analyze the structure and dynamics of single molecules in real time. This allows for example to gain insight into subpopulations of molecules or molecular states and the investigation of force-generating molecules at resolutions that by far beat the Abbe diffraction limit.
Target group: M.Sc. Physik, M.Sc. IPSP
- Trainer/in: Ralf Seidel
Soft matter or Soft condensed matter is a subfield of condensed matter comprising a variety of physical states that are easily deformed by thermal stresses or thermal fluctuations. They include liquids, colloids, polymers, foams, gels, granular materials, and a number of biological materials. These materials share an important common feature in that predominant physical behaviors occur at an energy scale comparable with room temperature thermal energy.
Target group: Master students
Lecture contents:
- Basics of statistical physics
- Particle-particle association
- Forces & interactions in soft matter
- Flows and transport in liquids
- Polymers + networks
- Colloids,
Liquid Crystals & Membranes
- Trainer/in: Patrick Irmisch
- Trainer/in: Julene Madariaga Marcos
- Trainer/in: Ralf Seidel