Difference between revisions of "Gels, Polymers, and "active" Colloids"
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=== WS 2015/16 === | === WS 2015/16 === | ||
+ | * Wed, '''13.01.2016''' External guest Daniel Häufle: L-shaped microswimmers | ||
* Wed, '''25.11.2015''' Progress report from the active Matter fraction | * Wed, '''25.11.2015''' Progress report from the active Matter fraction | ||
Revision as of 11:29, 7 January 2016
Group leader: Tobias Richter Members: Christian Holm, David Beyer, Mariano Brito, Patrick Kreissl, Rudolf Weeber, Slavko Kondrat
Schedule
The meeting takes place every three weeks on Wednesday at 13:15, if not indicated differently.
WS 2015/16
- Wed, 13.01.2016 External guest Daniel Häufle: L-shaped microswimmers
- Wed, 25.11.2015 Progress report from the active Matter fraction
SS 2014
- Wed, 3.9.2014
- Wed, 13.8.2014 Coarse graining out the connecting polymers in magnetic gels (RW)
- Wed, 23.7.2014
- Wed, 2.7.2014 Observables feature in ESPResSo by Stefan, some remarks on TRAVIS analysis tool for MD trajectories by Konrad
- Wed, 11.6.2014
- Wed, 21.5.2014 Progress reports
- Wed, 30.4.2014 The reaction ensemble, integrating chemical reactions into computer simulations (TR)
- Wed, 9.4.2014 Starting the semester with status/progress reports
WS 2013/2014
- Wed, 12.02.2014: Extraordinary Time: 15:30, Topic will be reports on progress and problems
- Wed, 15.01.2013: Cell under tension model for hydrogels (TR)
- Wed, 04.12.2013: fitting elastic constants in magnetic gels (RW) and as backup: Poisson-Boltzmann Cell under tension model for hydrogels (TR)
- Wed, 20.11.2013: Continuation of the blob picture for polymers under confinement, maybe talk on fitting elastic constants
- Wed, 06.11.2013: Talks on Blobology: Pincus blobs, Polymer blobs under confinement, electrostatic blobs
- Wed, 23.10.2013: Progress Report
- Wed, 2.10.2013: Initial meeting
Additional Material
Overview over active swimmers by Joost
active swimmers (6.83 MB)
Some remarks on literature research by Joost
literature research (1.9 MB)
Overview for the reaction ensemble method plus example implementation:
reaction ensemble (255 KB)