Publikation: Zero-temperature phase-flip rate in a biased parametric oscillator
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2025
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Deutsche Forschungsgemeinschaft (DFG): 425217212 - SFB 1432
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Physical Review Research. American Physical Society (APS). 2025, 7(2), 023188. eISSN 2643-1564. Verfügbar unter: doi: 10.1103/physrevresearch.7.023188
Zusammenfassung
A parametrically driven oscillator has two stable vibrational states at half the modulation frequency. The states have opposite phases and equal amplitudes. An extra drive at half the modulation frequency provides an effective bias that lifts the state symmetry. Quantum fluctuations lead to switching between the states, i.e., to phase-flip transitions. We develop a semiclassical approach that allows us to find the dependence of the switching rates on the amplitude of the bias and the parameters of the modulating field. We find that the rate of switching from a “shallow” state can become anomalously small at certain parameter values, leading to an efficient localization in this state. This is a consequence of the change of the topology of the oscillator phase trajectories. The results pave the way for implementing nonreciprocal quantum Ising systems based on parametric oscillators.
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530 Physik
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Mesoscopics, Open quantum systems & decoherence, Parametric resonance, Quantum control, Floquet systems, Nanomechanical devices, Nanowires, Superconducting qubits, First passage problems, Semiclassical methods
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BONESS, Daniel K.J., Wolfgang BELZIG, Mark I. DYKMAN, 2025. Zero-temperature phase-flip rate in a biased parametric oscillator. In: Physical Review Research. American Physical Society (APS). 2025, 7(2), 023188. eISSN 2643-1564. Verfügbar unter: doi: 10.1103/physrevresearch.7.023188BibTex
@article{Bone2025-05-27Zerot-73486,
title={Zero-temperature phase-flip rate in a biased parametric oscillator},
year={2025},
doi={10.1103/physrevresearch.7.023188},
number={2},
volume={7},
journal={Physical Review Research},
author={Boneß, Daniel K.J. and Belzig, Wolfgang and Dykman, Mark I.},
note={M.I.D. acknowledges partial support from the U.S. Defense Advanced Research Projects Agency (Grant No. HR0011-23-2-004) and from the Gordon and Betty Moore Foundation Award No. GBMF12214. Article Number: 023188}
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<dcterms:abstract>A parametrically driven oscillator has two stable vibrational states at half the modulation frequency. The states have opposite phases and equal amplitudes. An extra drive at half the modulation frequency provides an effective bias that lifts the state symmetry. Quantum fluctuations lead to switching between the states, i.e., to phase-flip transitions. We develop a semiclassical approach that allows us to find the dependence of the switching rates on the amplitude of the bias and the parameters of the modulating field. We find that the rate of switching from a “shallow” state can become anomalously small at certain parameter values, leading to an efficient localization in this state. This is a consequence of the change of the topology of the oscillator phase trajectories. The results pave the way for implementing nonreciprocal quantum Ising systems based on parametric oscillators.</dcterms:abstract>
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Kommentar zur Publikation
M.I.D. acknowledges partial support from the U.S. Defense Advanced Research Projects Agency (Grant No. HR0011-23-2-004) and from the Gordon and Betty Moore Foundation Award No. GBMF12214.
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