Stationary Fluctuations of Run-and-Tumble Particles

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Stationary Fluctuations of Run-and-Tumble Particles

Journal Article (2024)

Author(s)

Frank Redig (TU Delft - Applied Probability)

Hidde van Wiechen (TU Delft - Applied Probability)

Memory effects Ornstein-Uhlenbeck process Path large deviations Run-and-tumble motion Stationary fluctuations Stochastic duality

DOI related publication

https://doi.org/10.61102/1024-2953-mprf.2024.30.2.003 Final published version

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https://resolver.tudelft.nl/uuid:7cb6e6d1-e0e8-4401-9d03-2e157520c121

More Info

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Publication Year

2024

Language

English

Issue number

2

Volume number

30

Pages (from-to)

297-331

Downloads counter

144

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Abstract

We study the stationary fluctuations of independent run-and-tumble particles. We prove that the joint densities of particles with given internal state converges to an infinite dimensional Ornstein-Uhlenbeck process. We also consider an interacting case, where the particles are subjected to exclusion. We then study the fluctuations of the total density, which is a non-Markovian Gaussian process, and obtain its covariance in closed form. By considering small noise limits of this non-Markovian Gaussian process, we obtain in a concrete example a large deviation rate function containing memory terms.

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