Brownian motion: Anomalous response due to noisy chaos

Speer D, Eichhorn R, Reimann P (2007)
EPL 79(1).

Journal Article | Published | English

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We predict three different, quite unusual transport properties of an underdamped Brownian particle in the form of current and force of opposite signs. Their origin is a subtle interplay between the stability of coexisting attractors, noise-induced metastability, and transient chaos. Numerical simulations are complemented by intuitive explanations of the basic mechanism and analytical approximations. Copyright (c) EPLA, 2007.
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Speer D, Eichhorn R, Reimann P. Brownian motion: Anomalous response due to noisy chaos. EPL. 2007;79(1).
Speer, D., Eichhorn, R., & Reimann, P. (2007). Brownian motion: Anomalous response due to noisy chaos. EPL, 79(1).
Speer, D., Eichhorn, R., and Reimann, P. (2007). Brownian motion: Anomalous response due to noisy chaos. EPL 79.
Speer, D., Eichhorn, R., & Reimann, P., 2007. Brownian motion: Anomalous response due to noisy chaos. EPL, 79(1).
D. Speer, R. Eichhorn, and P. Reimann, “Brownian motion: Anomalous response due to noisy chaos”, EPL, vol. 79, 2007.
Speer, D., Eichhorn, R., Reimann, P.: Brownian motion: Anomalous response due to noisy chaos. EPL. 79, (2007).
Speer, D., Eichhorn, R., and Reimann, Peter. “Brownian motion: Anomalous response due to noisy chaos”. EPL 79.1 (2007).
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