Difference between revisions of "Hauptseminar Porous Media SS 2021/Bacteria in porous media"
| Line 18: | Line 18: | ||
For small pores, confinement determines the motility pattern, whereas for large surfaces hydrodynamics is the dominant factor. | For small pores, confinement determines the motility pattern, whereas for large surfaces hydrodynamics is the dominant factor. | ||
For intermediate pore sizes, all effects act together and create interesting phenomena. | For intermediate pore sizes, all effects act together and create interesting phenomena. | ||
| + | we will also highlight industrial applications of bacteria in porous media. | ||
== Literature == | == Literature == | ||
TBA | TBA | ||
Revision as of 18:34, 9 February 2021
- Date
- TBA"TBA" contains an extrinsic dash or other characters that are invalid for a date interpretation.
- Time
- TBA
- Topic
- Modelling bacteria in porous media
- Speaker
- TBD
- Tutor
- Christoph Lohrmann
Contents
Motile bacteria are a prime example of active matter. They are, in contrast to passive particles like molecules or colloids, far from equilibrium in any system because of their self-propulsion. This leads to interesting and sometimes counterintuitive transport properties, especially if the swimmers are placed in porous confinement.
This talk covers the fundamentals of the statistics and hydrodynamics of confined motile active matter at the micrometer scale. For different regimes of pore sizes, the relevant physics of the interplay between motility, confinement and external flow are discussed: For small pores, confinement determines the motility pattern, whereas for large surfaces hydrodynamics is the dominant factor. For intermediate pore sizes, all effects act together and create interesting phenomena. we will also highlight industrial applications of bacteria in porous media.
Literature
TBA