Artikel dengan mandat akses publik - Fabian Jan SchwarzendahlPelajari lebih lanjut
Tersedia di suatu tempat: 14
Tinjau
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
Mandat: German Research Foundation
Tinjau
Hydrodynamic interactions dominate the structure of active swimmers’ pair distribution functions
FJ Schwarzendahl, MG Mazza
The Journal of Chemical Physics 150 (18), 2019
Mandat: German Research Foundation
Tinjau
Active colloids in harmonic optical potentials (a)
I Buttinoni, L Caprini, L Alvarez, FJ Schwarzendahl, H Löwen
Europhysics Letters 140 (2), 27001, 2022
Mandat: Swiss National Science Foundation
Tinjau
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
Mandat: US National Science Foundation
Tinjau
Maximum in density heterogeneities of active swimmers
FJ Schwarzendahl, MG Mazza
Soft Matter 14 (23), 4666-4678, 2018
Mandat: German Research Foundation
Tinjau
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
Mandat: German Research Foundation
Tinjau
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
Mandat: German Research Foundation, Luxembourg National Research Fund
Tinjau
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
Mandat: German Research Foundation, European Commission
Tinjau
Active percolation in pusher-type microswimmers
FJ Schwarzendahl, MG Mazza
Europhysics Letters 140 (4), 47001, 2022
Mandat: German Research Foundation
Tinjau
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
Mandat: US National Science Foundation
Tinjau
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
Mandat: US National Science Foundation, Agence Nationale de la Recherche
Tinjau
Barrier-mediated predator-prey dynamics
FJ Schwarzendahl, H Löwen
EPL (Europhysics Letters) 134 (4), 48005, 2021
Mandat: German Research Foundation
Tinjau
Motility-induced shear thickening in dense colloidal suspensions
AG Bayram, FJ Schwarzendahl, H Löwen, L Biancofiore
Soft Matter 19 (24), 4571-4578, 2023
Mandat: European Commission
Tinjau
Mechano-self-regulation of bacterial size in growing colonies
R Wittmann, GH Nguyen, H Löwen, A Sengupta, FJ Schwarzendahl
Mandat: German Research Foundation, Luxembourg National Research Fund
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