AI Article Synopsis
- Brownian motion is linked to the central limit theorem as a Gaussian process, but exponential decays in the positional probability density function (P(X,t)) have been observed in various settings like glasses and live cells.
- By extending the large deviations approach in continuous time random walks, researchers identified a universal pattern in the density decay.
- The findings indicate that fluctuations in the number of steps taken by random walkers contribute to this exponential decay, which can be observed over short time frames, enhancing experimental accessibility.
Article Abstract
Brownian motion is a Gaussian process described by the central limit theorem. However, exponential decays of the positional probability density function P(X,t) of packets of spreading random walkers, were observed in numerous situations that include glasses, live cells, and bacteria suspensions. We show that such exponential behavior is generally valid in a large class of problems of transport in random media. By extending the large deviations approach for a continuous time random walk, we uncover a general universal behavior for the decay of the density. It is found that fluctuations in the number of steps of the random walker, performed at finite time, lead to exponential decay (with logarithmic corrections) of P(X,t). This universal behavior also holds for short times, a fact that makes experimental observations readily achievable.
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| http://dx.doi.org/10.1103/PhysRevLett.124.060603 | DOI Listing |
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