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Issue 40, 2019
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Mesoscopic non-equilibrium measures can reveal intrinsic features of the active driving

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Abstract

Biological assemblies such as chromosomes, membranes, and the cytoskeleton are driven out of equilibrium at the nanoscale by enzymatic activity and molecular motors. Similar non-equilibrium dynamics can be realized in synthetic systems, such as chemically fueled colloidal particles. Characterizing the stochastic non-equilibrium dynamics of such active soft assemblies still remains a challenge. Recently, new non-invasive approaches have been proposed to determine the non-equilibrium behavior, which are based on detecting broken detailed balance in the stochastic trajectories of several coordinates of the system. Inspired by the method of two-point microrheology, in which the equilibrium fluctuations of a pair of probe particles reveal the viscoelastic response of an equilibrium system, here, we investigate whether we can extend such an approach to non-equilibrium assemblies: can one extract information on the nature of the active driving in a system from the analysis of a two-point non-equilibrium measure? We address this question theoretically in the context of a class of elastic systems, driven out of equilibrium by a spatially heterogeneous stochastic internal driving. We consider several scenarios for the spatial features of the internal driving that may be relevant in biological and synthetic systems, and investigate how such features of the active noise may be reflected in the long-range scaling behavior of two-point non-equilibrium measures.

Graphical abstract: Mesoscopic non-equilibrium measures can reveal intrinsic features of the active driving

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Publication details

The article was received on 11 Jun 2019, accepted on 17 Sep 2019 and first published on 18 Sep 2019


Article type: Paper
DOI: 10.1039/C9SM01169B
Soft Matter, 2019,15, 8067-8076

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    Mesoscopic non-equilibrium measures can reveal intrinsic features of the active driving

    F. Mura, G. Gradziuk and C. P. Broedersz, Soft Matter, 2019, 15, 8067
    DOI: 10.1039/C9SM01169B

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