Michael Kuron
Michael Kuron
Institut für Computerphysik, Universität Stuttgart
Verified email at icp.uni-stuttgart.de - Homepage
Cited by
Cited by
ESPResSo 4.0–an extensible software package for simulating soft matter systems
F Weik, R Weeber, K Szuttor, K Breitsprecher, J de Graaf, M Kuron, ...
The European Physical Journal Special Topics 227 (14), 1789-1816, 2019
Moving charged particles in lattice Boltzmann-based electrokinetics
M Kuron, G Rempfer, F Schornbaum, M Bauer, C Godenschwager, ...
The Journal of Chemical Physics 145 (21), 214102, 2016
Role of geometrical shape in like-charge attraction of DNA
M Kuron, A Arnold
The European Physical Journal E 38 (3), 1-6, 2015
A lattice Boltzmann model for squirmers
M Kuron, P Stärk, C Burkard, J de Graaf, C Holm
The Journal of Chemical Physics 150 (14), 144110, 2019
waLBerla: A block-structured high-performance framework for multiphysics simulations
M Bauer, S Eibl, C Godenschwager, N Kohl, M Kuron, C Rettinger, ...
Computers & Mathematics with Applications, 2020
Hydrodynamic mobility reversal of squirmers near flat and curved surfaces
M Kuron, P Stärk, C Holm, J de Graaf
Soft Matter 15 (29), 5908-5920, 2019
Toward Understanding of Self-Electrophoretic Propulsion under Realistic Conditions: From Bulk Reactions to Confinement Effects
M Kuron, P Kreissl, C Holm
Accounts of Chemical Research 51 (12), 2998-3005, 2018
An extensible lattice Boltzmann method for viscoelastic flows: complex and moving boundaries in Oldroyd-B fluids
M Kuron, C Stewart, J de Graaf, C Holm
arXiv preprint arXiv:2009.12279, 2020
Worksheet 4: Thermostats
M Kuron, D Sean
Institute for Computational Physics, 2017
Efficient Lattice Boltzmann Algorithms for Colloids Undergoing Electrophoresis
M Kuron
Universität Stuttgart, 2015
Like-Charge Attraction in DNA
M Kuron
Universität Stuttgart, 2013
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