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BP: Fachverband Biologische Physik

BP 12: Cytoskeleton I

BP 12.5: Vortrag

Dienstag, 10. März 2026, 10:45–11:00, BAR/0205

Polydispersity-Induced Traveling Waves in Microtubule-Motor Mixtures — •Katrina Wharam¹, Ivan Maryshev¹, Filippo De Luca², and Erwin Frey¹ — ¹Ludwig-Maximilians Universität München, Germany — ²University of Cambridge, United Kingdom

Microtubule-motor mixtures are exemplary active systems that self-organize into a variety of non-equilibrium phases, including asters, bilayers, and active foams. While previous theoretical work has largely assumed monodisperse filament lengths, we investigate a mixture with two microtubule populations of distinct lengths and derive a continuum field theory using a Boltzmann-Ginzburg-Landau approach. Analytical and numerical analysis shows that, despite reciprocal microscopic interactions, the system develops emergent asymmetric behaviour at the macroscopic scale. We identify the filament length ratio as a key control parameter: small length ratios yield stationary nematic bands, whereas increasing the disparity leads to traveling waves - a pattern absent in monodisperse models. Our results reveal a generic, collective route to traveling states in non-self-propelling active matter and connect ad-hoc asymmetric-alignment theories with biologically realistic microtubule systems.

Keywords: active matter; microtubule–motor mixtures; polydispersity; traveling waves; Boltzmann–Ginzburg–Landau theory