Magnetic flux in mesoscopic rings: Quantum Smoluchowski regime

J. Dajka; L. Machura; S. Rogozinski; J. Luczka

arXiv:cond-mat/0701095·cond-mat.mes-hall·November 13, 2009

Magnetic flux in mesoscopic rings: Quantum Smoluchowski regime

J. Dajka, L. Machura, S. Rogozinski, J. Luczka

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TL;DR

This paper investigates magnetic flux behavior in mesoscopic rings within the quantum Smoluchowski regime, revealing quantum corrections lead to multistability and flux enhancement, with implications for quantum information systems.

Contribution

It introduces quantum correction effects in mesoscopic rings under the quantum Smoluchowski regime, highlighting multistability and potential applications in qutrit quantum architectures.

Findings

01

Quantum corrections induce multistable steady states.

02

Quantum effects can enhance magnetic flux statistically.

03

Relevance of quantum corrections is supported by entropic criteria.

Abstract

Magnetic flux in mesoscopic rings under the quantum Smoluchowski regime is investigated. Quantum corrections to the dissipative current are shown to form multistable steady states and can result in statistical enhancement of the magnetic flux. The relevance of quantum correction effects is supported v ia the entropic criterion. A possible application for a qutrit architecture of quantum information is proposed.

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