Anomalous yet Brownian

Wang, Bo; Anthony, Stephen M.; Bae, Sung Chul; Granick, Steve

doi:10.1073/pnas.0903554106

Cited by 430 publications

(575 citation statements)

References 25 publications

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“…In fact, vibrations with PSN statistics should in principle be easier to implement than Gaussian noise, since the fluctuations appear on a separate timescale. Dry friction has recently been shown to be relevant in particular to biological soft matter systems, which opens up the possibility of realizing the transport properties of our model in a nanoscale system [19,[30][31][32]. The thermal environment would provide an additional noise source, but overall the qualitative transport features should remain unchanged since thermal noise does not exert any net force.…”

Section: Discussionmentioning

confidence: 99%

Rectification of asymmetric surface vibrations with dry friction: An exactly solvable model

Baule

Sollich

2013

Phys. Rev. E

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We consider a stochastic model for the directed motion of a solid object due to the rectification of asymmetric surface vibrations with Poissonian shot-noise statistics. The friction between the object and the surface is given by a piecewise-linear friction force. This models the combined effect of dynamic friction and singular dry friction. We derive an exact solution of the stationary Kolmogorov-Feller (KF) equation in the case of two-sided exponentially distributed amplitudes. The stationary density of the velocity exhibits singular features such as a discontinuity and a delta-peak singularity at zero velocity, and also contains contributions from non-integrable solutions of the KF equation. The mean velocity in our model generally varies non-monotonically as the strength of the dry friction is increased, indicating that transport improves for increased dissipation.

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Section: Discussionmentioning

confidence: 99%

Rectification of asymmetric surface vibrations with dry friction: An exactly solvable model

Baule

Sollich

2013

Phys. Rev. E

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“…The other example is the one-dimensional diffusive motion of colloidal polystyrene particles on top of straight bilayer membrane tubes [25]. These tubes were adsorbed on a solid substrate and not moving in the lateral direction.…”

Section: Discussionmentioning

confidence: 99%

“…(In other words, on the experimental time scales the exponential tails due to an effective Coulombic friction may have left the observation window already, and the exponential tails observed in ref. [25] may have a different source). At this stage, a direct connection between our results and the above experimental results is therefore not possible.…”

Section: Discussionmentioning

confidence: 99%

Effect of Coulombic friction on spatial displacement statistics

Menzel

Goldenfeld

2011

Phys. Rev. E

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The phenomenon of Coulombic friction enters the stochastic description of dry friction between two solids and the statistic characterization of vibrating granular media. Here we analyze the corresponding Fokker-Planck equation including both velocity and spatial components, exhibiting a formal connection to a quantum mechanical harmonic oscillator in the presence of a delta potential. Numerical solutions for the resulting spatial displacement statistics show a crossover from exponential to Gaussian displacement statistics. We identify a transient intermediate regime that exhibits multiscaling properties arising from the contribution of Coulombic friction. The possible role of these effects during observations in diffusion experiments is shortly discussed.

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“…4B), indicating that the MSD is also linear. The fact that mildly entangled fluids can give rise to "anomalous, yet Brownian" diffusion, with a non-Gaussian propagator and yet a linear MSD, ties in with recent observations that this type of behaviour is frequent in biological systems 83,84 . It remains nevertheless a surprising observation, because a linear MSD is often considered to be associated with a Gaussian propagator, and because most classical anomalous diffusion models predict an MSD deviating from linearity.…”

Section: The Anomalous Yet Brownian Motion Of Proteins In Crowded Dementioning

confidence: 99%

“…We also note that whether diffusion in complex media is characterized by Gaussian propagators is a current topic of interest [80][81][82] . However most of the data available so far has been obtained from single-particle experiments, and therefore is restricted to slow diffusion processes [83][84][85] .…”

Section: On the Importance Of Characterizing Complex Diffusion Procesmentioning

confidence: 99%

Characterizing anomalous diffusion in crowded polymer solutions and gels over five decades in time with variable-lengthscale fluorescence correlation spectroscopy

et al. 2016

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The diffusion of macromolecules in cells and in complex fluids is often found to deviate from simple Fickian diffusion. One explanation offered for this behavior is that molecular crowding renders diffusion anomalous, where the mean-squared displacement of the particles scales as r 2 ∝ t α with α < 1. Unfortunately, methods such as fluorescence correlation spectroscopy (FCS) or fluorescence recovery after photobleaching (FRAP) probe diffusion only over a narrow range of lengthscales and cannot directly test the dependence of the mean-squared displacement (MSD) on time. Here we show that variable-lengthscale FCS (VLS-FCS), where the volume of observation is varied over several orders of magnitude, combined with a numerical inversion procedure of the correlation data, allows retrieving the MSD for up to five decades in time, bridging the gap between diffusion experiments performed at different lengthscales. In addition, we show that VLS-FCS provides a way to assess whether the propagator associated with the diffusion is Gaussian or non-Gaussian. We used VLS-FCS to investigate two systems where anomalous diffusion had been previously reported. In the case of dense cross-linked agarose gels, the measured MSD confirmed that the diffusion of small beads was anomalous at short lengthscales, with a cross-over to simple diffusion around ≈ 1 µm, consistent with a caged diffusion process. On the other hand, for solutions crowded with marginally entangled dextran molecules, we uncovered an apparent discrepancy between the MSD, found to be linear, and the propagators at short lengthscales, found to be non-Gaussian. These contradicting features call to mind the "anomalous, yet Brownian" diffusion observed in several biological systems, and the recently proposed "diffusing diffusivity" model.

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Anomalous yet Brownian

Cited by 430 publications

References 25 publications

Rectification of asymmetric surface vibrations with dry friction: An exactly solvable model

Rectification of asymmetric surface vibrations with dry friction: An exactly solvable model

Effect of Coulombic friction on spatial displacement statistics

Characterizing anomalous diffusion in crowded polymer solutions and gels over five decades in time with variable-lengthscale fluorescence correlation spectroscopy

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