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Ashreya Jayaram
Ashreya Jayaram
Wells Fargo
Bestätigte E-Mail-Adresse bei wellsfargo.com
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Zitiert von
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From scalar to polar active matter: Connecting simulations with mean-field theory
A Jayaram, A Fischer, T Speck
Physical Review E 101 (2), 022602, 2020
322020
Vorticity Determines the Force on Bodies Immersed in Active Fluids
T Speck, A Jayaram
Physical Review Letters 126 (13), 138002, 2021
222021
Exploiting compositional disorder in collectives of light-driven circle walkers
F Siebers, A Jayaram, P Blümler, T Speck
Science Advances 9 (15), eadf5443, 2023
162023
Force generation in confined active fluids: The role of microstructure
S Paul, A Jayaram, N Narinder, T Speck, C Bechinger
Physical Review Letters 129 (5), 058001, 2022
152022
Hunting active Brownian particles: Learning optimal behavior
M Gerhard, A Jayaram, A Fischer, T Speck
Physical Review E 104 (5), 054614, 2021
122021
Effective dynamics and fluctuations of a trapped probe moving in a fluid of active hard discs (a)
A Jayaram, T Speck
Europhysics Letters 143 (1), 17005, 2023
72023
High-order simulation scheme for active particles driven by stress boundary conditions
B Deußen, A Jayaram, F Kummer, Y Wang, T Speck, M Oberlack
Journal of Physics: Condensed Matter 33 (24), 244004, 2021
62021
Motility-induced clustering of active particles under soft confinement
T Knippenberg, A Jayaram, T Speck, C Bechinger
Physical Review Letters 133 (4), 048301, 2024
32024
Collective Hall current in chiral active fluids: Coupling of phase and mass transport through traveling bands
F Siebers, R Bebon, A Jayaram, T Speck
Proceedings of the National Academy of Sciences 121 (27), e2320256121, 2024
12024
Collective forces and torques in active matter: the role of anisotropy
A Jayaram
Johannes Gutenberg-Universität Mainz, 2023
2023
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