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W3136105059 abstract "It is well known that the ground-state cooling of a single mechanical oscillator is limited by some strict conditions in the conventional sideband cooling method, such as small cavity decay, weak effective coupling, and minimum cooling phonon occupancy. Here we propose an effective scheme to greatly improve the ground-state cooling of two mechanical oscillators in a compound three-mode optomechanical system. By introducing the frequency modulation and the bias gate voltage modulation switch into the system, it is demonstrated that the scheme is well suitable for simultaneously cooling the two mechanical oscillators whether their frequencies are identical or largely different. Compared with previous schemes without modulation, our scheme can be achievable in a much wider parameter zone but shows a more ideal cooling effect, i.e., ranging from weak coupling to ultrastrong coupling and from the resolved-sideband regime to the unresolved-sideband regime. Moreover, the minimum cooling phonon occupancies obtained in our scheme for identical mechanical frequencies successfully break the quantum backaction limit defined in the absence of modulation. More importantly, even in the conventional unstable zone, our scheme is still workable and the steady ground-state cooling can be achieved perfectly. Our scheme opens up an alternative method for simultaneously cooling multiple mechanical oscillators with lower cooling phonon occupancy even breaking the quantum backaction limit but with fewer parametric limitations." @default.
W3136105059 created "2021-03-29" @default.
W3136105059 creator A5004918480 @default.
W3136105059 creator A5016806564 @default.
W3136105059 creator A5020201557 @default.
W3136105059 creator A5085510706 @default.
W3136105059 creator A5088389834 @default.
W3136105059 date "2021-03-12" @default.
W3136105059 modified "2023-10-13" @default.
W3136105059 title "Double-mechanical-oscillator cooling by breaking the restrictions of quantum backaction and frequency ratio via dynamical modulation" @default.
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W3136105059 doi "https://doi.org/10.1103/physreva.103.033508" @default.
W3136105059 hasPublicationYear "2021" @default.
W3136105059 type Work @default.