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Rudolf Weeber
Rudolf Weeber
Institute for Computational Physics, University of Stuttgart
Verified email at icp.uni-stuttgart.de
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Cited by
Year
Espresso 3.1: Molecular dynamics software for coarse-grained models
A Arnold, O Lenz, S Kesselheim, R Weeber, F Fahrenberger, D Roehm, ...
Meshfree methods for partial differential equations VI, 1-23, 2013
2232013
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, 1789-1816, 2019
1822019
Polymer architecture of magnetic gels: a review
R Weeber, M Hermes, AM Schmidt, C Holm
Journal of Physics: Condensed Matter 30 (6), 063002, 2018
1222018
Deformation mechanisms in 2d magnetic gels studied by computer simulations
R Weeber, S Kantorovich, C Holm
Soft Matter 8 (38), 9923-9932, 2012
1062012
Buckling of paramagnetic chains in soft gels
S Huang, G Pessot, P Cremer, R Weeber, C Holm, J Nowak, S Odenbach, ...
Soft Matter 12 (1), 228-237, 2016
832016
Meshfree methods for partial differential equations VI
A Arnold, O Lenz, S Kesselheim, R Weeber, F Fahrenberger, D Roehm, ...
Lecture Notes in Computational Science and Engineering 89, 1-23, 2013
822013
Colloids dragged through a polymer solution: Experiment, theory, and simulation
C Gutsche, F Kremer, M Krüger, M Rauscher, R Weeber, J Harting
The Journal of chemical physics 129 (8), 2008
642008
Ferrofluids with shifted dipoles: ground state structures
S Kantorovich, R Weeber, JJ Cerda, C Holm
Soft Matter 7 (11), 5217-5227, 2011
622011
Ferrogels cross-linked by magnetic nanoparticles—Deformation mechanisms in two and three dimensions studied by means of computer simulations
R Weeber, S Kantorovich, C Holm
Journal of Magnetism and Magnetic Materials 383, 262-266, 2015
562015
Towards a scale-bridging description of ferrogels and magnetic elastomers
G Pessot, R Weeber, C Holm, H Löwen, AM Menzel
Journal of Physics: Condensed Matter 27 (32), 325105, 2015
502015
Ferrogels cross-linked by magnetic particles: Field-driven deformation and elasticity studied using computer simulations
R Weeber, S Kantorovich, C Holm
The Journal of Chemical Physics 143 (15), 2015
472015
Cluster formation in systems of shifted-dipole particles
M Klinkigt, R Weeber, S Kantorovich, C Holm
Soft Matter 9 (13), 3535-3546, 2013
442013
Modeling nanoparticle agglomeration using local interactions
G Inci, A Arnold, A Kronenburg, R Weeber
Aerosol Science and Technology 48 (8), 842-852, 2014
322014
Microstructure and magnetic properties of magnetic fluids consisting of shifted dipole particles under the influence of an external magnetic field
R Weeber, M Klinkigt, S Kantorovich, C Holm
The Journal of chemical physics 139 (21), 2013
322013
Studying the field-controlled change of shape and elasticity of magnetic gels using particle-based simulations
R Weeber, P Kreissl, C Holm
Archive of Applied Mechanics 89, 3-16, 2019
292019
Magnetic particles with shifted dipoles
S Kantorovich, R Weeber, JJ Cerdà, C Holm
Journal of magnetism and magnetic materials 323 (10), 1269-1272, 2011
272011
Micro-rheology on (polymer-grafted) colloids using optical tweezers
C Gutsche, MM Elmahdy, K Kegler, I Semenov, T Stangner, O Otto, ...
Journal of Physics: Condensed Matter 23 (18), 184114, 2011
242011
Langevin dynamics simulation of transport and aggregation of soot nano-particles in turbulent flows
G Inci, A Kronenburg, R Weeber, D Pflüger
Flow, Turbulence and Combustion 98, 1065-1085, 2017
222017
Frequency-dependent magnetic susceptibility of magnetic nanoparticles in a polymer solution: a simulation study
P Kreissl, C Holm, R Weeber
Soft Matter 17 (1), 174-183, 2021
192021
PyOIF: Computational tool for modelling of multi-cell flows in complex geometries
I Jančigová, K Kovalčíková, R Weeber, I Cimrák
PLOS Computational Biology 16 (10), e1008249, 2020
182020
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