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Strong anomalous diffusive behaviors of the two-state random walk process

Jian Liu, Ping Zhu, Jing-Dong Bao, Xiaosong Chen

2022Physical review. E14 citationsDOI

Abstract

The phenomenon of the two-state process is observed in various systems and is increasingly attracting attention, such that there is a need for a theoretical model of the process. In this paper, we present a prototypal two-state random walk (TSRW) model of a renewal process alternating between the continuous-time random walk (CTRW) state and Lévy walk (LW) state. The jump length distribution of the CTRW state is assumed to be Gaussian whereas the time distributions of the two states are both considered to follow a power law. The diffusive behavior is analyzed and discussed by calculating the mean squared displacement (MSD) analytically and numerically. The results reveal that it displays strong anomalous diffusive behaviors caused by random motions of both states, i.e., two anomalous diffusion terms coexist in the expression of the MSD, and the time distribution which has the heavier tail determines their forms. Moreover, because the two diffusion terms originate from different mechanisms, we find that the diffusion can be characterized by either the term with the largest diffusion exponent or the term with the largest diffusion coefficient at long timescales, which shows very different properties from the single-state process. In addition, the two-state nature of the process of the particle moving in a velocity field makes the TSRW model applicable to describe it. Results obtained from the two-state model reveal that the diffusion can even exhibit subdiffusive behavior, which is significantly different from known results obtained using the single-state model.

Topics & Concepts

Random walkAnomalous diffusionStatistical physicsContinuous-time random walkDiffusionExponentMean squared displacementJumpDiffusion processGaussianMathematicsRandom walker algorithmStochastic processJump processDistribution (mathematics)Field (mathematics)Renewal theoryPhysicsDisplacement (psychology)Term (time)Mean field theoryParticle (ecology)State (computer science)Heterogeneous random walk in one dimensionRandom fieldGaussian processLévy flightJump diffusionProcess (computing)Steady state (chemistry)Probability distributionPower lawScalingstochastic dynamics and bifurcationDiffusion and Search DynamicsFractional Differential Equations Solutions
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