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Filaments on the surface of a microorganism such as Paramecium or Ophalina beat highly synchronized and form so-called metachronal waves that travel along the surfaces. In order to study under what principal conditions these waves form, we…

生物物理 · 物理学 2010-12-16 Christopher Wollin , Holger Stark

We introduce a model system of stochastic entities, called 'rowers' which include some essentialities of the behavior of real cilia. We introduce and discuss the problem of symmetry breaking for these objects and its connection with the…

统计力学 · 物理学 2009-11-07 M. Cosentino Lagomarsino , B. Bassetti , P. Jona

Microorganisms develop coordinated beating patterns on surfaces lined with cilia known as metachronal waves. For a chain of cilia attached to a flat ciliate, it has been shown that hydrodynamic interactions alone can lead the system to…

流体动力学 · 物理学 2016-03-23 Babak Nasouri , Gwynn J. Elfring

Motile cilia are slender, hair-like cellular appendages that spontaneously oscillate under the action of internal molecular motors and are typically found in dense arrays. These active filaments coordinate their beating to generate…

软凝聚态物质 · 物理学 2022-01-28 Brato Chakrabarti , Sebastian Fürthauer , Michael J. Shelley

Large arrays of active cilia coordinate their beat cycles into metachronal waves. These waves can travel in different directions with respect to the cilium's beat direction and the resulting direction of fluid propulsion. Hydrodynamic…

生物物理 · 物理学 2023-09-18 Rachel R. Bennett

Biological systems can rely on collective formation of a metachronal wave in an ensemble of oscillators for locomotion and for fluid transport. We consider one-dimensional chains of phase oscillators with nearest neighbor interactions,…

生物物理 · 物理学 2023-03-15 A. C. Quillen

Synchronization induced by long-range hydrodynamic interactions is attracting attention as a candidate mechanism behind coordinated beating of cilia and flagella. Here we consider a minimal model of hydrodynamic synchronization in the low…

软凝聚态物质 · 物理学 2012-11-26 Nariya Uchida , Ramin Golestanian

Eukaryotic cilia and flagella are chemo-mechanical oscillators capable of generating long-range coordinated motions known as metachronal waves. Pair synchronization is a fundamental requirement for these collective dynamics, but it is…

On surfaces with many motile cilia, beats of the individual cilia coordinate to form metachronal waves. We present a theoretical framework that connects the dynamics of an individual cilium to the collective dynamics of a ciliary carpet via…

软凝聚态物质 · 物理学 2021-03-12 Fanlong Meng , Rachel R. Bennett , Nariya Uchida , Ramin Golestanian

The dynamics and motion of multi-ciliated microswimmers with a spherical body and a small number N (with 5 < N < 60) of cilia with length comparable to the body radius, is investigated by mesoscale hydrodynamics simulations. A metachronal…

软凝聚态物质 · 物理学 2024-06-03 Sebastian Rode , Jens Elgeti , Gerhard Gompper

Carpets of actively bending cilia represent arrays of biological oscillators that can exhibit self-organized metachronal synchronization in the form of traveling waves of cilia phase. This metachronal coordination supposedly enhances fluid…

生物物理 · 物理学 2022-01-11 Anton Solovev , Benjamin M. Friedrich

By taking into account the hydrodynamic interactions in a one dimensional array of model cilia attached to a no-slip cylinderical surface, we investigate their synchronized motion. We show, how does the emergence of metachronal waves depend…

生物物理 · 物理学 2017-05-31 Aref Ghorbani , Ali Najafi

Groups of eukaryotic cilia and flagella are capable of coordinating their beating over large scales, routinely exhibiting collective dynamics in the form of metachronal waves. The origin of this behaviour -- possibly influenced by both…

软凝聚态物质 · 物理学 2015-05-12 Douglas R. Brumley , Marco Polin , Timothy J. Pedley , Raymond E. Goldstein

In nature, metachronal coordination is an efficient strategy for fluid pumping and self-propulsion. Yet, mimetic systems for this type of organization are scarce. Recently, metachronal motion was observed in a bead-based magnetocapillary…

Organisms use hair-like cilia that beat in a metachronal fashion to actively transport fluid and suspended particles. Metachronal motion emerges due to a phase difference between beating cycles of neighboring cilia and appears as traveling…

流体动力学 · 物理学 2018-06-13 Srinivas Hanasoge , Peter J. Hesketh , Alexander Alexeev

Large groups of active cilia collectively beat in a fluid medium as metachronal waves, essential for some microorganisms motility and for flow generation in mucociliary clearance. Several models can predict the emergence of metachronal…

软凝聚态物质 · 物理学 2024-05-08 Supravat Dey , Gladys Massiera , Estelle Pitard

The physical mechanism behind the spontaneous formation of metachronal waves in microtubule arrays in a low Reynolds number fluid has been of interest for the past several years, yet is still not well understood. We present a model…

亚细胞过程 · 定量生物学 2019-11-06 Stephen E Martin , Matthew E Brunner , Joshua M Deutsch

Cells or bacteria carrying cilia on their surface show many striking features : alignment of cilia in an array, two-phase asymmetric beating for each cilium, coordination between cilia and existence of metachronal waves with a constant…

生物物理 · 物理学 2009-11-11 Boris Guirao , Jean-François Joanny

We study the propagation of an unusual type of periodic travelling waves in chains of identical beads interacting via Hertz's contact forces. Each bead periodically undergoes a compression phase followed by a free flight, due to special…

斑图形成与孤子 · 物理学 2015-06-04 Guillaume James

We introduce a generic model of weakly non-linear self-sustained oscillator as a simplified tool to study synchronisation in a fluid at low Reynolds number. By averaging over the fast degrees of freedom, we examine the effect of…

软凝聚态物质 · 物理学 2015-06-04 M. Leoni , T. B. Liverpool
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