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Program PI Retreat 14.11.-15.11.2023 Tuesday, 14.11.2023 10:00-11:00 Arrival, Coffee and Board Meeting (for Board Members) 11:00-11:30 Update on Finances and IRTG 11:30-12:15 Talk by Martin Oberlack 12:15-13:30 Lunch Break 13:30-14:15 Talk by Thomas Speck 14:15-15:00 Talk by Friederike Schmid 15:00-16:00 Coffee Break 16:00-16:45 Talk by Michael Vogel 16:45-17:30 Talk by Lisa Hartung 17:30-18:00 Check-In 18:00-21:00 Winetasting and Dinner Wednesday, 15.11.2023 09:30-10:15 Talk by Lukas Stelzl (hybrid) 10:15-10:45 Coffee break 10:45-11:30 Talk by Maria Lukacova 11:30-12:15 Talk by Kostas Daoulas 12:15-13:30 Lunch Break 13:30-14:15 Talk by Evangelia Charvati 14:15-open end PI Plenum and Final Discussions with Coffee
IRTG Programming School 2023 – Program During the Programming School we will cover: Coarse-graining, deep learning, finite element methods, computational fluid dynamics, machine learning und stochastic processes. Monday, 25.09.2023 11:00-12:00 Talk about Machine Learning by Michael Wand 12:00-13:00 Tutorial on Machine Learning by Kyra Klos and Alexander Segner 13:00-14:00 Lunch 14:00-15:00 Talk about Deep Learning by Michael Wand 15:00-15:30 Coffee Break 15:30-17:30 Tutorial on Deep Learning by Kyra Klos and Alexander Segner 18:15-19:00 Dinner (only for people staying overnight) Tuesday, 26.09.2023 10:00-11:00 Talk about the Finite Element Method by Aaron Brunk 11:00-11:30 Coffee Break 11:30-12:30 Talk about Comutational Fluid Dynamics by Aaron Brunk 12:30-13:30 Lunch 13:30-15:00 Tutorial 1 on Computational Fluid Dynamics using the Finite Element Method by Aaron Brunk 15:30-16:00 Coffee Break 16:00-17:30 Tutorial 2 on Computational Fluid Dynamics using the Finite Element Method by Aaron Brunk 18:15-19:00 Dinner (only for people staying overnight) Wednesday, 27.09.2023 10:00-11:00 […]
2016 – Publications
Project B8 (N): Hydrodynamic Simulation of Passive and Active Janus Particles Janus particles are colloidal particles whose surface has been modified differently in different locations, creating so-called patches. The patches are designed in a way to generate directional interactions between the Janus particles. Janus particles, therefore, often self-assemble into ordered structures, commonly referred to as lattices or crystal structures, even though the system still is a colloidal solution. By variation of the chemical nature, size and location of the patches, a rich set of lattice structures is accessible. In our work so far, we have focused on triblock Janus particles, which carry attractive van-der-Waals patches on the poles and repulsive electrostatic charges around the equator. We developed a detailed dissipative-particle dynamics model for them, which includes surface chemistry and explicit solvent molecules. With this model and our newly devised adaptive metadynamics method, we could clarify their self-assembly into two-dimensional ordered […]
Prof. Dr. Davide Donadio Max Planck-Institut für Polymerforschung moved to UC Davis 163A Chemistry 95616, USADavis, CA Tel: +1 (530) 754 1040 Mail: ddonadio@ucdavis.edu Further information
Dr. Frédéric Leroy Institut für Physikalische Chemie Technische Universität Darmstadt Alarich-Weiss-Str. 4 D-64287 Darmstadt Tel: +49 6151 16 5289 Mail: f.leroy@theo.chemie.tu-darmstadt.de Further information
Prof. Dr. Nico van der Vegt Institut für Physikalische Chemie Technische Universität Darmstadt Alarich-Weiss-Straße 10 D-64287 Darmstadt Tel: +49 6151 16 4356 Fax: +49 6151 16 2048 Mail: vandervegt@cpc.tu-darmstadt.de Further information
Prof. Dr. Michael Vogel Institut für Festkörperphysik Technische Universität Darmstadt Hochschulstr. 6 D-64289 Darmstadt Tel: +49 6151 162933 Mail: michael.vogel@physik.tu-darmstadt.de Further information
Prof. Dr. Yongqi Wang Department of Mechanical Engineering Technische Universität Darmstadt Otto-Berndt-Str. 2 D-64287 Darmstadt Tel: +49 6151 1626202 Fax: +49 6151 1626203 Mail: wang@fdy.tu-darmstadt.de Further information
Prof. Dr. Herbert Egger Department of Mathematics Technische Universität Darmstadt Dolivostraße 15 D-64293 Darmstadt Tel: +49 6151 16-23170 Mail: egger@mathematik.tu-darmstadt.de Further information