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Evidence of hydrodynamic and subdiffusive motion of tracers in a viscoelastic medium

We propose a theoretical model which relies on the generalized Langevin equation and may account for various dynamical features of the thermal motion of organelles, vesicles or macromolecules in viscoelastic media such as polymer networks. In particular, we consider inertial and hydrodynamic effects at short times, subdiffusive scaling at intermediate times, and eventually optical trapping at long times. Simple analytical formulas for the mean square displacement and velocity auto-correlation function are derived. The developed theory is applied to the analysis of fifty-second long trajectories of micron-sized spherical tracers in actin gels that were acquired at one microsecond temporal resolution by using optical tweezers single-particle tracking. For the first time, both the subdiffusive scaling and hydrodynamic effects are observed within a single experiment and accurately described by a minimal phenomenological model.

preprint2013arXivOpen access
Denis S. GrebenkovMahsa VahabiElena BertsevaLaszlo ForroSylvia Jeney
cond-mat.soft
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Denis S. GrebenkovMahsa VahabiElena BertsevaLaszlo ForroSylvia Jeney

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