Turbulence-induced clustering in compressible active fluids

Vasco M. Worlitzer; Gil Ariel; Avraham Be'er; Holger Stark; Markus Bär; Sebastian Heidenreich

doi:10.1039/d1sm01276b

Turbulence-induced clustering in compressible active fluids

Vasco M. Worlitzer, Gil Ariel, Avraham Be'er, Holger Stark, Markus Bär, Sebastian Heidenreich

Zuckerberg Institute for Water Research

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

We study a novel phase of active polar fluids, which is characterized by the continuous creation and destruction of dense clusters due to self-sustained turbulence. This state arises due to the interplay between self-advection of the aligned swimmers and their defect topology. The typical cluster size is determined by the characteristic vortex size. Our results are obtained by investigating a continuum model of compressible polar active fluids, which incorporates typical experimental observations in bacterial suspensions, in particular a non-monotone dependence of speed on density.

Original language	English
Pages (from-to)	10447-10457
Number of pages	11
Journal	Soft Matter
Volume	17
Issue number	46
DOIs	https://doi.org/10.1039/d1sm01276b
State	Published - 14 Dec 2021

ASJC Scopus subject areas

General Chemistry
Condensed Matter Physics

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10.1039/d1sm01276b

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abstract = "We study a novel phase of active polar fluids, which is characterized by the continuous creation and destruction of dense clusters due to self-sustained turbulence. This state arises due to the interplay between self-advection of the aligned swimmers and their defect topology. The typical cluster size is determined by the characteristic vortex size. Our results are obtained by investigating a continuum model of compressible polar active fluids, which incorporates typical experimental observations in bacterial suspensions, in particular a non-monotone dependence of speed on density.",

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AU - Worlitzer, Vasco M.

AU - Ariel, Gil

AU - Be'er, Avraham

AU - Stark, Holger

AU - Bär, Markus

AU - Heidenreich, Sebastian

PY - 2021/12/14

Y1 - 2021/12/14

N2 - We study a novel phase of active polar fluids, which is characterized by the continuous creation and destruction of dense clusters due to self-sustained turbulence. This state arises due to the interplay between self-advection of the aligned swimmers and their defect topology. The typical cluster size is determined by the characteristic vortex size. Our results are obtained by investigating a continuum model of compressible polar active fluids, which incorporates typical experimental observations in bacterial suspensions, in particular a non-monotone dependence of speed on density.

AB - We study a novel phase of active polar fluids, which is characterized by the continuous creation and destruction of dense clusters due to self-sustained turbulence. This state arises due to the interplay between self-advection of the aligned swimmers and their defect topology. The typical cluster size is determined by the characteristic vortex size. Our results are obtained by investigating a continuum model of compressible polar active fluids, which incorporates typical experimental observations in bacterial suspensions, in particular a non-monotone dependence of speed on density.

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JO - Soft Matter

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ER -

Turbulence-induced clustering in compressible active fluids

Abstract

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