Noise-induced drift in stochastic differential equations with arbitrary friction and diffusion in the smoluchowski-kramers limit

Date

2012

Authors

Hottovy, S.
Volpe, G.
Wehr, J.

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Source Title

Journal of Statistical Physics

Print ISSN

0022-4715

Electronic ISSN

1572-9613

Publisher

Springer

Volume

146

Issue

4

Pages

762 - 773

Language

English

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Abstract

We consider the dynamics of systems with arbitrary friction and diffusion. These include, as a special case, systems for which friction and diffusion are connected by Einstein fluctuation-dissipation relation, e. g. Brownian motion. We study the limit where friction effects dominate the inertia, i. e. where the mass goes to zero (Smoluchowski-Kramers limit). Using the Itô stochastic integral convention, we show that the limiting effective Langevin equations has different drift fields depending on the relation between friction and diffusion. Alternatively, our results can be cast as different interpretations of stochastic integration in the limiting equation, which can be parametrized by α∈ℝ. Interestingly, in addition to the classical Itô (α=0), Stratonovich (α=0. 5) and anti-Itô (α=1) integrals, we show that position-dependent α=α(x), and even stochastic integrals with α∉[0,1] arise. Our findings are supported by numerical simulations. © 2012 Springer Science+Business Media, LLC.

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