Fabian Jan Schwarzendahl
Cited by
Cited by
Curvature-guided motility of microalgae in geometric confinement
T Ostapenko, FJ Schwarzendahl, TJ Böddeker, CT Kreis, J Cammann, ...
Physical Review Letters 120 (6), 068002, 2018
Hydrodynamic interactions dominate the structure of active swimmers’ pair distribution functions
FJ Schwarzendahl, MG Mazza
The Journal of Chemical Physics 150 (18), 2019
Maximum in density heterogeneities of active swimmers
FJ Schwarzendahl, MG Mazza
Soft Matter 14 (23), 4666-4678, 2018
Anomalous Cooling and Overcooling of Active Colloids
FJ Schwarzendahl, H Löwen
Physical Review Letters 129 (13), 138002, 2022
Emergent probability fluxes in confined microbial navigation
J Cammann, FJ Schwarzendahl, T Ostapenko, D Lavrentovich, ...
Proceedings of the National Academy of Sciences 118 (39), e2024752118, 2021
Mutation induced infection waves in diseases like COVID-19
FJ Schwarzendahl, J Grauer, B Liebchen, H Löwen
Scientific Reports 12 (1), 9641, 2022
Active colloids in harmonic optical potentials (a)
I Buttinoni, L Caprini, L Alvarez, FJ Schwarzendahl, H Löwen
Europhysics Letters 140 (2), 27001, 2022
Active nematic order and dynamic lane formation of microtubules driven by membrane-bound diffusing motors
FL Memarian, JD Lopes, FJ Schwarzendahl, MG Athani, N Sarpangala, ...
Proceedings of the National Academy of Sciences 118 (52), e2117107118, 2021
Active particles using reinforcement learning to navigate in complex motility landscapes
PA Monderkamp, FJ Schwarzendahl, MA Klatt, H Löwen
Machine Learning: Science and Technology 3 (4), 045024, 2022
A one-dimensional three-state run-and-tumble model with a ‘cell cycle’
D Breoni, FJ Schwarzendahl, R Blossey, H Löwen
The European Physical Journal E 45 (10), 83, 2022
Barrier-mediated predator-prey dynamics
FJ Schwarzendahl, H Löwen
EPL (Europhysics Letters) 134 (4), 48005, 2021
Self-organization and shape change by active polarization in nematic droplets
FJ Schwarzendahl, P Ronceray, KL Weirich, K Dasbiswas
Physical Review Research 3, 043061, 2021
Collective mechano-response dynamically tunes cell-size distributions in growing bacterial colonies
R Wittmann, GHP Nguyen, H Löwen, FJ Schwarzendahl, A Sengupta
Communications Physics 6 (1), 331, 2023
Active percolation in pusher-type microswimmers
FJ Schwarzendahl, MG Mazza
Europhysics Letters 140 (4), 47001, 2022
Stability of interlocked self-propelled dumbbell clusters
FJ Schwarzendahl, A Maulean-Amieva, CP Royall, H Löwen
Physical Review E 107 (5), 054606, 2023
Motility-induced shear thickening in dense colloidal suspensions
AG Bayram, FJ Schwarzendahl, H Löwen, L Biancofiore
Soft Matter 19 (24), 4571-4578, 2023
Do active nematic self-mixing dynamics help growing bacterial colonies to maintain local genetic diversity?
FJ Schwarzendahl, DA Beller
Frontiers in Physics 10, 940980, 2022
Mechano-self-regulation of bacterial size in growing colonies
R Wittmann, GH Nguyen, H Löwen, A Sengupta, FJ Schwarzendahl
arXiv preprint arXiv:2212.10101, 2022
Optimizing collective behavior of communicating active particles with machine learning
J Grauer, FJ Schwarzendahl, H Löwen, B Liebchen
Machine Learning: Science and Technology 5 (1), 015014, 2024
Size-distribution dynamics in growing bacterial colonies with mechano-sensing
R Wittmann, FJ Schwarzendahl, H Löwen
Bulletin of the American Physical Society, 2023
The system can't perform the operation now. Try again later.
Articles 1–20