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Showing 1–6 of 6 results
Advanced filters: Author: Tyler N. Shendruk Clear advanced filters

  • Bacteria continuously inject energy into their surroundings and thus induce chaotic like flows, namely meso-scale turbulence. Here, the authors show that transition to meso-scale turbulence and inertial turbulence observed in pipes share the same scaling behavior that belongs to the directed percolation universality class.

    • Amin Doostmohammadi
    • Tyler N. Shendruk
    • Julia M. Yeomans
    ResearchOpen Access
    Nature Communications
    Volume: 8, P: 1-7

  • Active flows in biological systems swirl. A coupling between active flows, elongated deformations and defect dynamics helps preserve self-organised structures against disordered swirling.

    • Louise C. Head
    • Claire Doré
    • Tyler N. Shendruk
    ResearchOpen Access
    Nature Physics
    Volume: 20, P: 492-500

  • Active emulsions and liquid crystalline shells offer a unique framework for exploring topological matter due to their complex morphologies and dynamic properties. Here the authors report how activity generates diverse nonequilibrium states, from defect-free motile states to complex topologically active configurations, providing insights into controlled flow and topology in active systems.

    • Giuseppe Negro
    • Louise C. Head
    • Adriano Tiribocchi
    ResearchOpen Access
    Nature Communications
    Volume: 16, P: 1-11

  • As lamellar materials, smectics exhibit both liquid and solid characteristics, making them difficult to model at the mesoscale. Paget et al. propose a complex tensor order parameter that reflects the smectic symmetries, capable of describing complex defects including dislocations and disclinations.

    • Jack Paget
    • Marco G. Mazza
    • Tyler N. Shendruk
    ResearchOpen Access
    Nature Communications
    Volume: 14, P: 1-13

  • Particle-based models of soft active matter are known to exhibit large density fluctuations, which may be problematic for considering homogeneous systems. Through considering the coupling of activity to local density, we reduce density fluctuations while retaining active turbulent dynamics.

    • Timofey Kozhukhov
    • Benjamin Loewe
    • Tyler N. Shendruk
    ResearchOpen Access
    Communications Physics
    Volume: 7, P: 1-12