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Paper detail

Orientational Memory of Active Particles in Multistate Non-Markovian Processes

The orientational memory of particles can serve as an effective measure of diffusivity, spreading, and search efficiency in complex stochastic processes. We develop a theoretical framework to describe the decay of directional correlations in a generic class of stochastic active processes consisting of distinct states of motion characterized by their persistence and switching probabilities between the states. For exponentially distributed sojourn times, the orientation autocorrelation is analytically derived and the characteristic times of its crossovers are obtained in terms of the persistence of each state and the switching probabilities. We show how non-exponential sojourn-time distributions of interest, such as Gaussian and power-law distributions, can result from history-dependent transitions between the states. The relaxation behavior of the correlation function in such non-Markovian processes is governed by the history-dependence of the switching probabilities and cannot be solely determined by the mean sojourn times of the states.

preprint2022arXivOpen access
Zeinab SadjadiM. Reza Shaebani
cond-mat.stat-mechBiological Physicscond-mat.soft
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Zeinab SadjadiM. Reza Shaebani

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