Rheology of Active-Particle Suspensions

Hatwalne, Yashodhan; Ramaswamy, Sriraṁ; Rao, Madan; Simha, Robert

doi:10.1103/physrevlett.92.118101

Cited by 505 publications

(675 citation statements)

References 25 publications

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“…Conversely, a suspension of "pullers" with negative hydrodynamic dipoles will have a higher viscosity than a passive suspension. These predictions 5 are supported by experimental observations with bacterial pushers 6,7 and algal pullers. 8 The observations appear to clearly confirm a key generic feature of the rheology of active suspensions.…”

Section: Introductionsupporting

confidence: 68%

Motility induced changes in viscosity of suspensions of swimming microbes in extensional flows

McDonnell

Gopesh

et al. 2015

Soft Matter

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Suspensions of motile cells are model systems for understanding the unique mechanical properties of living materials which often consist of ensembles of self-propelled particles. We present here a quantitative comparison of theory against experiment for the rheology of such suspensions. The influence of motility on viscosities of cell suspensions is studied using a novel acousticallydriven microfluidic capillary-breakup extensional rheometer. Motility increases the extensional viscosity of suspensions of algal pullers, but decreases it in the case of bacterial or sperm pushers. A recent model [Saintillan, Phys. Rev. E, 2010, 81, 56307] for dilute active suspensions is extended to obtain predictions for higher concentrations, after independently obtaining parameters such as swimming speeds and diffusivities. We show that details of body and flagellar shape can significantly determine macroscale rheological behaviour.

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Section: Introductionsupporting

confidence: 68%

Motility induced changes in viscosity of suspensions of swimming microbes in extensional flows

McDonnell

Gopesh

et al. 2015

Soft Matter

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“…While recent theories of active systems predict novel enhancement in the viscosity [13], our experiments are well below the concentration at which these effects are observable. Instead, our results are consistent with the Einstein result for hard spheres:…”

Section: -2mentioning

confidence: 70%

Fluctuations and Rheology in Active Bacterial Suspensions

et al. 2007

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We probe non-equilibrium properties of an active bacterial bath through measurements of correlations of passive tracer particles and the response function of a driven, optically trapped tracer. These measurements demonstrate violation of the fluctuation-dissipation theorem and enable us to extract the power spectrum of the active stress fluctuations. In some cases, we observe $1/\sqrt{\omega}$ scaling in the noise spectrum which we show can be derived from a theoretical model incorporating coupled stress, orientation, and concentration fluctuations of the bacteria.Comment: 4 pages, 4 figures, accepted to Phys. Rev. Let

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“…Phenomenological work by Hatwalne and collaborators [9] first pointed out that activity lowers the linear bulk viscosity of tensile suspensions, such as most swimming bacteria, while it enhances the viscosity of contractile systems, and that this enhancement may become very large near the isotropic-nematic transition. A semimicroscopic model of contractile suspensions of motorfilaments mixtures confirmed these results and predicted an actual divergence of the viscosity of contractile suspensions at the transition [10].…”

Section: Introductionmentioning

confidence: 99%

Sheared active fluids: Thickening, thinning, and vanishing viscosity

2010

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We analyze the behavior of a suspension of active polar particles under shear. In the absence of external forces, orientationally ordered active particles are known to exhibit a transition to a state of non-uniform polarization and spontaneous flow. Such a transition results from the interplay between elastic stresses, due to the liquid crystallinity of the suspension, and internal active stresses. In the presence of an external shear we find an extremely rich variety of phenomena, including an effective reduction (increase) in the apparent viscosity depending on the nature of the active stresses and the flow-alignment property of the particles, as well as more exotic behaviors such as a non-monotonic stress/strain-rate relation and yield stress for large activities.

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Rheology of Active-Particle Suspensions

Cited by 505 publications

References 25 publications

Motility induced changes in viscosity of suspensions of swimming microbes in extensional flows

Motility induced changes in viscosity of suspensions of swimming microbes in extensional flows

Fluctuations and Rheology in Active Bacterial Suspensions

Sheared active fluids: Thickening, thinning, and vanishing viscosity

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