We investigate how the combined effects of strong Ohmic dissipation and monochromatic driving affect the stability of a quantum system with a metastable state. We find that, by increasing the coupling with the environment, the escape time makes a transition from a regime in which it is substantially controlled by the driving, displaying resonant peaks and dips, to a regime of frequency-independent escape time with a peak followed by a steep falloff. The escape time from the metastable state has a nonmonotonic behavior as a function of the thermal-bath coupling, the temperature, and the frequency of the driving. The quantum noise-enhanced stability phenomenon is observed in the investigated system.
Valenti, D., Carollo, A., Spagnolo, B. (2018). Stabilizing effect of driving and dissipation on quantum metastable states. PHYSICAL REVIEW A, 97(4), 042109-1-042109-7 [10.1103/PhysRevA.97.042109].
Stabilizing effect of driving and dissipation on quantum metastable states
Valenti, Davide;Carollo, Angelo;Spagnolo, Bernardo
2018-01-01
Abstract
We investigate how the combined effects of strong Ohmic dissipation and monochromatic driving affect the stability of a quantum system with a metastable state. We find that, by increasing the coupling with the environment, the escape time makes a transition from a regime in which it is substantially controlled by the driving, displaying resonant peaks and dips, to a regime of frequency-independent escape time with a peak followed by a steep falloff. The escape time from the metastable state has a nonmonotonic behavior as a function of the thermal-bath coupling, the temperature, and the frequency of the driving. The quantum noise-enhanced stability phenomenon is observed in the investigated system.File | Dimensione | Formato | |
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PhysRevA.97.042109_13.04.2018.pdf
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