Normal and anomalous fluctuation relations for Gaussian stochastic dynamics

We study transient work fluctuation relations (FRs) for Gaussian stochastic systems generating anomalous diffusion. For this purpose we use a Langevin approach by employing two different types of additive noise: (i) internal noise where the fluctuation-dissipation relation of the second kind (FDR II...

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Bibliographic Details
Published in:Journal of statistical mechanics 2012-11, Vol.2012 (11), p.L11001-12
Main Authors: Chechkin, A V, Lenz, F, Klages, R
Format: Article
Language:English
Subjects:
Diffusion
Dynamics
Fluctuation
Gaussian
Noise
Statistical mechanics
Stochastic systems
Stochasticity
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Summary:We study transient work fluctuation relations (FRs) for Gaussian stochastic systems generating anomalous diffusion. For this purpose we use a Langevin approach by employing two different types of additive noise: (i) internal noise where the fluctuation-dissipation relation of the second kind (FDR II) holds, and (ii) external noise without FDR II. For internal noise we demonstrate that the existence of FDR II implies the existence of the fluctuation-dissipation relation of the first kind (FDR I), which in turn leads to conventional (normal) forms of transient work FRs. For systems driven by external noise we obtain violations of normal FRs, which we call anomalous FRs. We derive them in the long-time limit and demonstrate the existence of logarithmic factors in FRs for intermediate times. We also outline possible experimental verifications.
ISSN:1742-5468
1742-5468
DOI:10.1088/1742-5468/2012/11/L11001