Raphael Wittkowski
Raphael Wittkowski
Assistant Professor of Physics, Westfälische Wilhelms-Universität Münster, Germany
Bestätigte E-Mail-Adresse bei uni-muenster.de - Startseite
Titel
Zitiert von
Zitiert von
Jahr
Phase-field-crystal models for condensed matter dynamics on atomic length and diffusive time scales: an overview
H Emmerich, H Löwen, R Wittkowski, T Gruhn, GI Tóth, G Tegze, ...
Advances in Physics 61 (6), 665-743, 2012
2522012
Circular motion of asymmetric self-propelling particles
F Kümmel, B ten Hagen, R Wittkowski, I Buttinoni, R Eichhorn, G Volpe, ...
Physical Review Letters 110 (19), 198302, 2013
2452013
Pressure and phase equilibria in interacting active Brownian spheres
AP Solon, J Stenhammar, R Wittkowski, M Kardar, Y Kafri, ME Cates, ...
Physical Review Letters 114 (19), 198301, 2015
2252015
Gravitaxis of asymmetric self-propelled colloidal particles
B ten Hagen, F Kümmel, R Wittkowski, D Takagi, H Löwen, C Bechinger
Nature Communications 5, 4829, 2014
1702014
Scalar φ4 field theory for active-particle phase separation
R Wittkowski, A Tiribocchi, J Stenhammar, RJ Allen, D Marenduzzo, ...
Nature Communications 5, 4351, 2014
1682014
Activity-induced phase separation and self-assembly in mixtures of active and passive particles
J Stenhammar, R Wittkowski, D Marenduzzo, ME Cates
Physical Review Letters 114 (1), 018301, 2015
1502015
Self-propelled Brownian spinning top: dynamics of a biaxial swimmer at low Reynolds numbers
R Wittkowski, H Löwen
Physical Review E 85 (2), 021406, 2012
672012
Brownian motion and the hydrodynamic friction tensor for colloidal particles of complex shape
DJ Kraft, R Wittkowski, B Ten Hagen, KV Edmond, DJ Pine, H Löwen
Physical Review E 88 (5), 050301, 2013
652013
Light-induced self-assembly of active rectification devices
J Stenhammar, R Wittkowski, D Marenduzzo, ME Cates
Science Advances 2 (4), e1501850, 2016
642016
Brownian dynamics of a self-propelled particle in shear flow
B ten Hagen, R Wittkowski, H Löwen
Physical Review E 84 (3), 031105, 2011
602011
Can the self-propulsion of anisotropic microswimmers be described by using forces and torques?
B ten Hagen, R Wittkowski, D Takagi, F Kümmel, C Bechinger, H Löwen
Journal of Physics: Condensed Matter 27 (19), 194110, 2015
592015
Derivation of a three-dimensional phase-field-crystal model for liquid crystals from density functional theory
R Wittkowski, H Löwen, HR Brand
Physical Review E 82 (3), 031708, 2010
562010
Dynamical density functional theory for colloidal particles with arbitrary shape
R Wittkowski, H Löwen
Molecular Physics 109 (23-24), 2935-2943, 2011
542011
Active Model H: scalar active matter in a momentum-conserving fluid
A Tiribocchi, R Wittkowski, D Marenduzzo, ME Cates
Physical Review Letters 115 (18), 188302, 2015
412015
Stability of liquid crystalline phases in the phase-field-crystal model
CV Achim, R Wittkowski, H Löwen
Physical Review E 83 (6), 061712, 2011
262011
Helical paths, gravitaxis, and separation phenomena for mass-anisotropic self-propelling colloids: experiment versus theory
AI Campbell, R Wittkowski, B ten Hagen, H Löwen, SJ Ebbens
Journal of Chemical Physics 147 (8), 084905, 2017
242017
Dynamics of a deformable active particle under shear flow
M Tarama, AM Menzel, B ten Hagen, R Wittkowski, T Ohta, H Löwen
Journal of Chemical Physics 139 (10), 104906, 2013
232013
Polar liquid crystals in two spatial dimensions: the bridge from microscopic to macroscopic modeling
R Wittkowski, H Löwen, HR Brand
Physical Review E 83 (6), 061706, 2011
232011
Extended dynamical density functional theory for colloidal mixtures with temperature gradients
R Wittkowski, H Löwen, HR Brand
Journal of Chemical Physics 137 (22), 224904, 2012
222012
Nonequilibrium dynamics of mixtures of active and passive colloidal particles
R Wittkowski, J Stenhammar, ME Cates
New Journal of Physics 19 (10), 105003, 2017
212017
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