Berlin 2024 – wissenschaftliches Programm
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BP: Fachverband Biologische Physik
BP 20: Poster IIIa
Mittwoch, 20. März 2024, 11:00–14:30, Poster B
Active Matter, Statistical Physics in Biological Systems, Systems and Network Biophysics
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11:00 | BP 20.1 | Influence of Environmental Inhomogeneity on Active Particle Dynamics in Obstacle Parks: A Numerical Study — •Zeinab Sadjadi and Heiko Rieger |
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11:00 | BP 20.2 | Order from disorder: active particles with random alignment interactions — •Eloise Lardet and Thibault Bertrand |
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11:00 | BP 20.3 | Design and manufacture of self-propelled particles driven by light — •Jannis Fischer, Alejandro Jurado Jiménez, and Timo Betz |
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11:00 | BP 20.4 | Simulating a field-theoretic model of transcription condensates — •Kathrin Hertäg, Joshua Robinson, and Thomas Speck |
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11:00 | BP 20.5 | Learning in slime molds? — Adrian Büchl, •Lisa Schick, and Karen Alim |
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11:00 | BP 20.6 | Mesoscopic hydrodynamic modeling of Trypanosoma brucei — •Zihan Tan, Julian Isaac Ufoma Peters, and Holger Stark |
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11:00 | BP 20.7 | Evaluating the cell-cell interactions of swimming flagellated microbes — •Henrik Groh, Alexandros A. Fragkopoulos, Colin-Marius Koch, Michael Wilczek, and Oliver Bäumchen |
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11:00 | BP 20.8 | Quantifying vascular morphology on a chip — •Leonie Karr, Fatemeh Mirzapour, and Karen Alim |
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11:00 | BP 20.9 | Metabolically controlled bioconvection in suspensions of photoactive microbes — •Florian Böhme, Alexandros Fragkopoulos, Nicole Drewes, and Oliver Bäumchen |
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11:00 | BP 20.10 | Effect of flagella length on the motility of confined microbes — •Tom Sosniok, Alexandros Fragkopoulos, and Oliver Bäumchen |
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11:00 | BP 20.11 | Tracking and analysis of active droplet dynamics: from image processing to synthetic biology — •Roberto Menichetti, Matteo Scandola, and Raffaello Potestio |
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11:00 | BP 20.12 | Entropy production of active crystals — •Connor Roberts and Gunnar Pruessner |
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11:00 | BP 20.13 | Quantification and model-based classification of the aging dynamics of single endothelial cells under confluent conditions — •Anselm Hohlstamm, Andreas Deussen, Stephan Speier, and Peter Dieterich |
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11:00 | BP 20.14 | Reinforcement Learning in Active Colloidal Reservoir Computing — •Jonas Scheunemann, Samuel Tovey, and Christian Holm |
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11:00 | BP 20.15 | Radius-Dependent Dynamics of Active Spot — •Arghavan Partovifard and Holger Stark |
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11:00 | BP 20.16 | Efficient Bayesian Inference of Active Brownian Motion using Reinforcement-learned Brownian Bridges — •Sascha Lambert and Stefan Klumpp |
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11:00 | BP 20.17 | Self-organized criticality in animal collectives: the effects of network topology and heterogeneities — •Bianca Pacini, Yunus Sevinchan, Carla Vollmoeller, David Bierbach, Jens Krause, and Pawel Romanczuk |
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11:00 | BP 20.18 | Controlling Droplet Formation and Dissolution with Chemical Reactions — •Gerrit Wellecke, Jan Kirschbaum, and David Zwicker |
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11:00 | BP 20.19 | Clonal dynamics of surface-driven growing tissues — •Ruslan Mukhamadiarov, Matteo Ciarchi, Fabrizio Olmeda, and Steffen Rulands |
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11:00 | BP 20.20 | Measuring activity from particle trajectories — •Lukas Abegg, Till M. Muenker, Gabriel Knotz, Anna-Lotta Höper, Matthias Krüger, and Timo Betz |
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11:00 | BP 20.21 | Phase separation on membranes with matter exchange and dimerization — •Riccardo Rossetto, Kueyoung Kim, and David Zwicker |
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11:00 | BP 20.22 | Unraveling the Role of Physical Interactions in Multicomponent Phase Separation — •Yicheng Qiang, Chengjie Luo, and David Zwicker |
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11:00 | BP 20.23 | Probing Neuronal Dendrites by First-Passage Properties — •Fabian Hubertus Kreten, Ludger Santen, and Reza Shaebani |
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11:00 | BP 20.24 | Spherical harmonics and the morphology of red blood cells — •Thomas John, Felix Maurer, and Christian Wagner |
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11:00 | BP 20.25 | General motifs of flagella number control and cellular counting — •Richard Swiderski, Florian Raßhofer, and Erwin Frey |
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11:00 | BP 20.26 | Mean-filed theory for fibrillar aggregation and nematic-isotropic phase separation — •Kafa Alameh and Christoph Weber |
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11:00 | BP 20.27 | Tangential diffusion and motility-induced mixing transition in growing spheroidal cell colonies — •Torben Sunkel, Lukas Hupe, and Philip Bittihn |
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11:00 | BP 20.28 | A Study on Tradeoffs Induced Landscapes Model — •Muna Turki, Suman Das, Muhittin Mungan, Rotem Gross, and Joachim Krug |
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11:00 | BP 20.29 | A Wang-Landau-based approach to sample the configurational space of complex biomolecules — •Camilla Spreti, Raffaello Potestio, and Roberto Menichetti |
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11:00 | BP 20.30 | Data-driven, ecosystem-based approach to cancer development — Alessandra Accettola, •Margherita Mele, and Raffaello Potestio |
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11:00 | BP 20.31 | Evolution on fitness landscapes with universal negative epistasis — •Daniel Oros and Joachim Krug |
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11:00 | BP 20.32 | Modelling host-pathogen interactions: combining population dynamics with behavioural analysis — •Soham Mukhopadhyay, Jonathan Pollock, Ben Fabry, David Voehringer, and Vasily Zaburdaev |
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11:00 | BP 20.33 | Mechanics of decision-making in light-trapped slime mold — •Lisa Schick, Emily Eichenlaub, Fabian Drexel, Siyu Chen, and Karen Alim |
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11:00 | BP 20.34 | Quantification of the network morphology of Physarum polycephalum under environmental effects — •Valentin Pauli, Lisa Schick, and Karen Alim |
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11:00 | BP 20.35 | Periodic impulse response of ERK signaling in HeLa cells — •Stefan Köstler, Thoma Itoh, and Kazuhiro Aoki |
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11:00 | BP 20.36 | Dynamical Network Remodeling of Physarum polycephalum — •Mathieu Le Verge-Serandour and Karen Alim |
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11:00 | BP 20.37 | Systematic Classification and Quantification of Microbial Interactions — •Timon Wittenstein, Gerrit Ansmann, Adriana Espinosa-Cantú, and Tobias Bollenbach |