2019
DOI: 10.1088/1742-5468/ab190f
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Anomalous fluxes in overdamped Brownian dynamics with Lorentz force

Abstract: We study the stochastic motion of a particle subject to spatially varying Lorentz force in the smallmass limit. The limiting procedure yields an additional drift term in the overdamped equation that cannot be obtained by simply setting mass to zero in the velocity Langevin equation. We show that whereas the overdamped equation of motion accurately captures the position statistics of the particle, it leads to unphysical fluxes in the system that persist in the long time limit; an anomalous result inconsistent w… Show more

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Cited by 22 publications
(36 citation statements)
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“…Note that when the magnetic field is absent, equation ( 13) reduces to the diagonal matrix consistent with the previous studies [19,24]. In the case of the same temperatures along the spatial degrees of freedom and a nonzero magnetic field, the matrix D reduces to the well-known matrix [2,5,6], which is given as…”
Section: Diffusion Equationsupporting
confidence: 60%
See 2 more Smart Citations
“…Note that when the magnetic field is absent, equation ( 13) reduces to the diagonal matrix consistent with the previous studies [19,24]. In the case of the same temperatures along the spatial degrees of freedom and a nonzero magnetic field, the matrix D reduces to the well-known matrix [2,5,6], which is given as…”
Section: Diffusion Equationsupporting
confidence: 60%
“…We consider a single diffusing particle of mass m and charge q subjected to Lorentz force due to an external magnetic field B = Bn, directed along the unit vector n. Each spatial degree of freedom of the particle is coupled to a different thermostat at temperature T i where i = x, y, z. The stochastic dynamics of the particle are described by the following Langevin equation [1,2,5,6]:…”
Section: Modelmentioning
confidence: 99%
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“…While the effect of the Lorentz force on the properties of materials has been thoroughly studied in the context of solid-state physics, much less is known about its influence on soft-matter systems which are dominated by overdamped dynamics. This becomes particularly interesting in light of the recent finding that the Lorentz force induces a particle flux perpendicular to density gradients, thus preventing a diffusive description of the dynamics [1,2]. In this paper, we study the unusual fluxes induced by the Lorentz force and their effect on the nonequilibrium dynamics of the system.…”
Section: Introductionmentioning
confidence: 99%
“…Whereas the Langevin equations are convenient for simulations, a statistical description is often preferred for theoretical analysis. To this end one derives the Fokker-Planck equation for the position degrees of freedom, which for a Brownian particle subject to inhomogeneous Lorentz force, is given as [2,5] ∂P (r, t) ∂t = ∇ · D(r)∇P (r, t) ,…”
Section: Introductionmentioning
confidence: 99%