Ground state cooling of a radio-frequency LC circuit in an optoelectromechanical system
ORAL
Abstract
We present a complete theory for laser cooling of a macroscopic radio-frequency LC electrical circuit by means of an optoelectromechanical system, consisting of an optical cavity dispersively coupled to a nanomechanical oscillator, which is in turn capacitively coupled to the LC circuit of interest. We determine the optimal parameter regime where the LC resonator can be cooled down to its quantum ground state, which requires a large optomechanical cooperativity, and a larger electromechanical cooperativity. Moreover, comparable optomechanical and electromechanical coupling rates are preferable for reaching the quantum ground state.
[1] Nicola Malossi, Paolo Piergentili, Jie Li, Enrico Serra, Riccardo Natali, Giovanni Di Giuseppe, David Vitali, arXiv:2009.04421 [quant-ph]
[1] Nicola Malossi, Paolo Piergentili, Jie Li, Enrico Serra, Riccardo Natali, Giovanni Di Giuseppe, David Vitali, arXiv:2009.04421 [quant-ph]
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Presenters
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Nicola Malossi
Univ of Camerino
Authors
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Nicola Malossi
Univ of Camerino
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Paolo Piergentili
Univ of Camerino
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Jie Li
Physics, Delft University of Technology
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Enrico Serra
TIFPA-INFN Trento
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Riccardo Natali
Univ of Camerino
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Giovanni Di Giuseppe
Univ of Camerino
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David Vitali
Univ of Camerino, University of Camerino