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arxiv: 2506.16523 · v1 · pith:OSJPTOPA · submitted 2025-06-19 · cond-mat.soft · physics.bio-ph

Thin active nematohydrodynamic layers: asymptotic theories and instabilities

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classification cond-mat.soft physics.bio-ph
keywords instabilitiesnematicthicknessactivityactiveshapeasymptoticfilms
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Starting from a three-dimensional description of an active nematic layer, we employ an asymptotic theory to derive a series of low-dimensional continuum models that capture the coupled dynamics of flat and curved films, including variations in film thickness, shape deformations, internal velocity fields, and the dynamics of orientational order. Using this asymptotic theory, we investigate instabilities driven by activity in both the nematic and isotropic phases for cylindrical and flat films. In the flat case, we demonstrate that incorporating shape and thickness variations fundamentally alters the bend and splay nature of instabilities compared to conventional two dimensional nematic instabilities. In the isotropic phase, we find that both extensile and contractile activity can induce nematic order, in contrast with active nematics on fixed surfaces, where only extensile activity leads to ordering. For the case of curved geometries such as a cylindrical film, we reveal that thickness and shape instabilities are inherently coupled. In the isotropic phase, the emergence of nematic order triggers both thickness and shape instabilities. In the nematic phase, contractile activity induces thickness instabilities, which in turn drive geometric deformations. Our results highlight the crucial interplay between activity, thickness variations, and curvature, providing new insights into the behavior of active nematic films beyond the conventional two dimensional paradigm that has been studied to date.

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Activity driven buckling and pattern formation in shells of oriented solids

    cond-mat.soft 2026-06 unverdicted novelty 7.0

    Active stresses in nematic-oriented elastic shells drive new buckling modes and nonlinear patterns (axial, circumferential, helical, diamond, oscillatory) selected by orientation and activity sign, with circumferentia...