Phase transitions in trajectories of a superconducting single-electron transistor coupled to a resonator

Recent progress in the study of dynamical phase transitions has been made with a large-deviation approach to study trajectories of stochastic jumps using a thermodynamic formalism. We study this method applied to an open quantum system consisting of a superconducting single-electron transistor, near...

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Veröffentlicht in:	Physical review. E, Statistical, nonlinear, and soft matter physics Statistical, nonlinear, and soft matter physics, 2012-05, Vol.85 (5 Pt 1), p.051122-051122, Article 051122
Hauptverfasser:	Genway, Sam, Garrahan, Juan P, Lesanovsky, Igor, Armour, Andrew D
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Sprache:	eng
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container_title	Physical review. E, Statistical, nonlinear, and soft matter physics
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creator	Genway, Sam Garrahan, Juan P Lesanovsky, Igor Armour, Andrew D
description	Recent progress in the study of dynamical phase transitions has been made with a large-deviation approach to study trajectories of stochastic jumps using a thermodynamic formalism. We study this method applied to an open quantum system consisting of a superconducting single-electron transistor, near the Josephson quasiparticle resonance, coupled to a resonator. We find that the dynamical behavior shown in rare trajectories can be rich even when the mean dynamical activity is small, and thus the formalism gives insights into the form of fluctuations. The structure of the dynamical phase diagram found from the quantum-jump trajectories of the resonator is studied, and we see that sharp transitions in the dynamical activity may be related to the appearance and disappearance of bistabilities in the state of the resonator as system parameters are changed. We also demonstrate that for a fast resonator, the trajectories of quasiparticles are similar to the resonator trajectories.
doi_str_mv	10.1103/PhysRevE.85.051122
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title	Phase transitions in trajectories of a superconducting single-electron transistor coupled to a resonator
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