Nonlinear microrheology with time-dependent forces : Application to recoils in viscoelastic fluids
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This work presents a theoretical analysis of the motion of a tracer colloid driven by a time-dependent force through a viscoelastic fluid. The recoil of the colloid after application of a strong force is determined. It provides insights into the elastic forces stored locally in the fluid and their weakening by plastic processes. We generalize the mode-coupling theory of microrheology to include time-dependent forces. After deriving the equations of motion for the tracer correlator and simplifying to a schematic model, we apply the theory to a switch-off force protocol that features the recoiling of the tracer after cessation of the driving. We also include Langevin dynamics simulations to compare to the results of the theory. A nonmonotonic trend of the recoil amplitude is found in the theory and confirmed in the simulations. The linear-response approximation is also verified in the small-force regime. While the overall agreement between simulation and theory is good, simulation shows that the theory predicts a too strong nonmonotonous dependence of the recoil distance on the applied force.
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DITZ, Nikolas, Antonio M. PUERTAS, Matthias FUCHS, 2024. Nonlinear microrheology with time-dependent forces : Application to recoils in viscoelastic fluids. In: Physical Review E. American Physical Society (APS). 2024, 110(5), 054603. ISSN 2470-0045. eISSN 2470-0053. Verfügbar unter: doi: 10.1103/physreve.110.054603BibTex
@article{Ditz2024-11-07Nonli-71340, year={2024}, doi={10.1103/physreve.110.054603}, title={Nonlinear microrheology with time-dependent forces : Application to recoils in viscoelastic fluids}, number={5}, volume={110}, issn={2470-0045}, journal={Physical Review E}, author={Ditz, Nikolas and Puertas, Antonio M. and Fuchs, Matthias}, note={Article Number: 054603} }
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