Tunneling Mechanism for Changing the Motion Direction of a Pulsating Ratchet. Temperature Effect

A pulsating ratchet with a spatially periodic double-well potential profile undergoing shift fluctuations for half a period is considered. The motion direction in such a ratchet is determined by the probability of overcoming which of the barriers surrounding the shallow potential well is greater. At...

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Veröffentlicht in:JETP letters 2023-09, Vol.118 (5), p.369-375
Hauptverfasser: Rozenbaum, V. M., Shapochkina, I. V., Trakhtenberg, L. I.
Format: Artikel
Sprache:eng
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Zusammenfassung:A pulsating ratchet with a spatially periodic double-well potential profile undergoing shift fluctuations for half a period is considered. The motion direction in such a ratchet is determined by the probability of overcoming which of the barriers surrounding the shallow potential well is greater. At relatively high temperatures, in accordance with the Arrhenius law, the probabilities of overcoming the barriers are determined by their heights, and at temperatures close to absolute zero, when the ratchet moves according to the tunnel mechanism, the barrier shapes are also important. Therefore, for narrow high and low wide barriers, the overcoming mechanism may turn out to be different and, moreover, dependent on temperature. As a result, a temperature-induced change in the direction of the ratchet motion is possible. A simple interpolation theory is presented to illustrate this effect. Simple criteria are formulated for the shape of the potential relief, using which one can experimentally observe motion reversal.
ISSN:0021-3640
1090-6487
DOI:10.1134/S002136402360235X