Novel anomalous diffusion phenomena of underdamped Langevin equation with random parameters

Abstract

The diffusion behavior of particles moving in complex heterogeneous environment is a very topical issue. We characterize particle's trajectory via an underdamped Langevin system driven by a Gaussian white noise with a time dependent diffusivity of velocity, together with a random relaxation timescale τ to parameterize the effect of complex medium. We mainly concern how the random parameter τ influences the diffusion behavior and ergodic property of this Langevin system. Besides, the comparison between the fixed and random initial velocity v0 is conducted to show the effect of different initial ensembles. The heavy-tailed distribution of τ with finite mean is found to suppress the decay rate of the velocity correlation function and promote the diffusion behavior, playing a competition role to the time dependent diffusivity. More interestingly, a random v0 with a specific distribution depending on random τ also enhances the diffusion. Both the random parameters τ and v0 influence the dynamics of the Langevin system in an non-obvious way, which cannot be ignored even they has finite moments.

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