Juliana Caspers scite author profile

We experimentally investigate the transient recoil dynamics of a colloidal probe particle in a viscoelastic fluid after the driving force acting on the probe is suddenly removed. The corresponding recoil displays two distinct timescales which are in excellent agreement with a microscopic model which considers the probe particle to be coupled to two bath particles via harmonic springs. Notably, this model exhibits two sets of eigenmodes which correspond to reciprocal and non-reciprocal force conditions and which can be experimentally confirmed in our experiments. We expect our findings to be relevant under conditions where particles are exposed to non-steady shear forces as this is encountered e.g. in microfluidic sorting devices or the intermittent motion of motile bacteria within their natural viscoelastic surrounding.

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How are mobility and friction related in viscoelastic fluids?

Caspers

Ditz

Kumar

et al. 2023

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The motion of a colloidal probe in a viscoelastic fluid is described by friction or mobility, depending on whether the probe is moving with a velocity or feeling a force. While the Einstein relation describes an inverse relationship valid for Newtonian solvents, both concepts are generalized to time-dependent memory kernels in viscoelastic fluids. We theoretically and experimentally investigate their relation by considering two observables: the recoil after releasing a probe that was moved through the fluid and the equilibrium mean squared displacement (MSD). Applying concepts of linear response theory, we generalize Einstein's relation and thereby relate recoil and MSD, which both provide access to the mobility kernel. With increasing concentration, however, MSD and recoil show distinct behaviors, rooted in different behaviors of the two kernels. Using two theoretical models, a linear two-bath particle model and hard spheres treated by mode-coupling theory, we find a Volterra relation between the two kernels, explaining differing timescales in friction and mobility kernels under variation of concentration.

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Barrier Crossing in a Viscoelastic Bath

et al. 2022

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Recoil experiments determine the eigenmodes of viscoelastic fluids

Ginot¹,

Caspers²,

Kumar³

et al. 2022

Preprint

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We experimentally investigate the recoil dynamics of a colloidal probe particle after shearing it with constant velocity through a viscoelastic fluid. The recoil displays two distinct timescales which are in excellent agreement with a microscopic model built on a particle being linked to two bath particles by harmonic springs. This model yields analytical expressions which reproduce all experimental protocols, including additional waiting periods before particle release. Notably, two sets of timescales appear, corresponding to reciprocal and nonreciprocal eigenmodes of the model.

show abstract

How are mobility and friction related in viscoelastic fluids?

Caspers¹,

Ditz²,

Kumar³

et al. 2022

Preprint

View full text Add to dashboard Cite

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Juliana Caspers

Recoil experiments determine the eigenmodes of viscoelastic fluids

How are mobility and friction related in viscoelastic fluids?

Barrier Crossing in a Viscoelastic Bath

Recoil experiments determine the eigenmodes of viscoelastic fluids

How are mobility and friction related in viscoelastic fluids?

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