Infinite density and relaxation for Lévy walks in an external potential: Hermite polynomial approach

Pengbo Xu; Ralf Metzler; Wanli Wang

doi:10.1103/physreve.105.044118

Infinite density and relaxation for Lévy walks in an external potential: Hermite polynomial approach

Pengbo Xu, Ralf Metzler, Wanli Wang

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Lévy walks are continuous-time random-walk processes with a spatiotemporal coupling of jump lengths and waiting times. We here apply the Hermite polynomial method to study the behavior of LWs with power-law walking time density for four different cases. First we show that the known result for the infinite density of an unconfined, unbiased LW is consistently recovered. We then derive the asymptotic behavior of the probability density function (PDF) for LWs in a constant force field, and we obtain the corresponding qth-order moments. In a harmonic external potential we derive the relaxation dynamic of the LW. For the case of a Poissonian walking time an exponential relaxation behavior is shown to emerge. Conversely, a power-law decay is obtained when the mean walking time diverges. Finally, we consider the case of an unconfined, unbiased LW with decaying speed v(τ)=v0/τ. When the mean walking time is finite, a universal Gaussian law for the position-PDF of the walker is obtained explicitly.

Original language	English
Article number	044118
Journal	Physical Review E
Volume	105
Issue number	4
DOIs	https://doi.org/10.1103/physreve.105.044118
State	Published - Apr 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2022 American Physical Society.

Funding

P.X. gratefully acknowledges financial support from China Postdoctoral Science Foundation funded project No. 8206300491. R.M. acknowledges financial support from the German Science Foundation (DFG, Grant No. ME 1535/12-1) and from the Foundation for Polish Science (Fundacja na rzecz Nauki Polskiej, Humboldt Polish Honorary Research Scholarship). W.W. is supported by the National Natural Science Foundation of China under Grant No. 12105243 and the Zhejiang Province Natural Science Foundation LQ22A050002.

Funders	Funder number
Deutsche Forschungsgemeinschaft	ME 1535/12-1
National Natural Science Foundation of China	12105243
Fundacja na rzecz Nauki Polskiej
China Postdoctoral Science Foundation	8206300491
Natural Science Foundation of Zhejiang Province	LQ22A050002

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10.1103/physreve.105.044118

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title = "Infinite density and relaxation for L{\'e}vy walks in an external potential: Hermite polynomial approach",

abstract = "L{\'e}vy walks are continuous-time random-walk processes with a spatiotemporal coupling of jump lengths and waiting times. We here apply the Hermite polynomial method to study the behavior of LWs with power-law walking time density for four different cases. First we show that the known result for the infinite density of an unconfined, unbiased LW is consistently recovered. We then derive the asymptotic behavior of the probability density function (PDF) for LWs in a constant force field, and we obtain the corresponding qth-order moments. In a harmonic external potential we derive the relaxation dynamic of the LW. For the case of a Poissonian walking time an exponential relaxation behavior is shown to emerge. Conversely, a power-law decay is obtained when the mean walking time diverges. Finally, we consider the case of an unconfined, unbiased LW with decaying speed v(τ)=v0/τ. When the mean walking time is finite, a universal Gaussian law for the position-PDF of the walker is obtained explicitly.",

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N2 - Lévy walks are continuous-time random-walk processes with a spatiotemporal coupling of jump lengths and waiting times. We here apply the Hermite polynomial method to study the behavior of LWs with power-law walking time density for four different cases. First we show that the known result for the infinite density of an unconfined, unbiased LW is consistently recovered. We then derive the asymptotic behavior of the probability density function (PDF) for LWs in a constant force field, and we obtain the corresponding qth-order moments. In a harmonic external potential we derive the relaxation dynamic of the LW. For the case of a Poissonian walking time an exponential relaxation behavior is shown to emerge. Conversely, a power-law decay is obtained when the mean walking time diverges. Finally, we consider the case of an unconfined, unbiased LW with decaying speed v(τ)=v0/τ. When the mean walking time is finite, a universal Gaussian law for the position-PDF of the walker is obtained explicitly.

AB - Lévy walks are continuous-time random-walk processes with a spatiotemporal coupling of jump lengths and waiting times. We here apply the Hermite polynomial method to study the behavior of LWs with power-law walking time density for four different cases. First we show that the known result for the infinite density of an unconfined, unbiased LW is consistently recovered. We then derive the asymptotic behavior of the probability density function (PDF) for LWs in a constant force field, and we obtain the corresponding qth-order moments. In a harmonic external potential we derive the relaxation dynamic of the LW. For the case of a Poissonian walking time an exponential relaxation behavior is shown to emerge. Conversely, a power-law decay is obtained when the mean walking time diverges. Finally, we consider the case of an unconfined, unbiased LW with decaying speed v(τ)=v0/τ. When the mean walking time is finite, a universal Gaussian law for the position-PDF of the walker is obtained explicitly.

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Infinite density and relaxation for Lévy walks in an external potential: Hermite polynomial approach

Abstract

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