Brandon R. Ferrer, Alejandro V. Arzola, Denis Boyer, Juan Ruben Gomez-Solano
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Transition path time over a barrier of a colloidal particle in a viscoelastic bath
We experimentally study the statistics of the transition path time taken by a
submicron bead to successfully traverse an energy barrier created by two
optical tweezers in two prototypical viscoelastic fluids, namely, aqueous
polymer and micellar solutions. We find a very good agreement between our
experimental distributions and a theoretical expression derived from the
generalized Langevin equation for the particle motion. Our results reveal that
the mean transition path time measured in such viscoelastic fluids have a
non-trivial dependence on the barrier curvature and they can be significantly
reduced when compared with those determined in Newtonian fluids of the same
zero-shear viscosity. We verify that the decrease of the mean transition path
time can be described in terms of an effective viscosity that quantitatively
coincides with that measured by linear microrheology at a frequency determined
by the reactive mode that gives rise to the unstable motion over the barrier.
Therefore, our results uncover the linear response of the particle during its
thermally activated escape from a metastable state even when taking place in a
non-Markovian bath.
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