Limit cycles in periodically driven open quantum systems

We investigate the long-time behavior of quantum N-level systems that are coupled to a Markovian environment and subject to periodic driving. As our main result, we obtain a general algebraic condition ensuring that all solutions of a periodic quantum master equation with Lindblad form approach a un...

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Bibliographic Details
Published inJournal of physics. A, Mathematical and theoretical Vol. 52; no. 43; pp. 43 - 51
Main Authors Menczel, Paul, Brandner, Kay
Format Journal Article
LanguageEnglish
Published IOP Publishing 25.10.2019
Subjects
asymptotics
cyclic machines
functional analysis and operator theory
mathematical physics
nonequilibrium systems
open quantum systems
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Summary:We investigate the long-time behavior of quantum N-level systems that are coupled to a Markovian environment and subject to periodic driving. As our main result, we obtain a general algebraic condition ensuring that all solutions of a periodic quantum master equation with Lindblad form approach a unique limit cycle. Quite intuitively, this criterion requires that the dissipative terms of the master equation connect all subspaces of the system Hilbert space during an arbitrarily small fraction of the cycle time. Our results provide a natural extension of Spohn's algebraic condition for the approach to equilibrium to systems with external driving. Moreover, our theory leads to a rigorous condition for the emergence of dissipative discrete time crystals and covers also classical, periodically modulated Markov jump processes.
Bibliography:JPhysA-112352
ISSN:1751-8113
1751-8121
DOI:10.1088/1751-8121/ab435a