Strong quadrature squeezing and quantum amplification in a coupled Bose–Einstein condensate—optomechanical cavity based on parametric modulation
Autor: | Ali Motazedifard, M. H. Naderi, Rasoul Roknizadeh, A. Dalafi |
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Rok vydání: | 2019 |
Předmět: |
Condensed Matter::Quantum Gases
Physics 010308 nuclear & particles physics Scattering General Physics and Astronomy 01 natural sciences law.invention Radiation pressure Quantum state law Quantum mechanics 0103 physical sciences Thermal Modulation (music) 010306 general physics Quantum Optomechanics Bose–Einstein condensate |
Zdroj: | Annals of Physics. 405:202-219 |
ISSN: | 0003-4916 |
Popis: | We consider an optomechanical cavity with a movable end-mirror as a quantum mechanical oscillator (MO) containing an interacting cigar-shaped Bose–Eisenstein condensate (BEC). It is assumed that both the MO and the BEC interact with the radiation pressure of the cavity field in the red-detuned and weak coupling regimes while the two-body atomic collisions frequency of the BEC and the mechanical spring coefficient of the MO are coherently modulated. By analyzing the scattering matrix, we show that in the largely different cooperativities regime together with strong modulations, the mechanical mode of the MO and the Bogoliubov mode of the BEC exhibit quadrature squeezing which can surpass the so-called 3dB limit (up to 75 dB) with high robustness to the thermal noises. Surprisingly, in this regime by controlling the system and modulation parameters, a very high degree of squeezing (up to 16 dB) together with high purity of quantum state for the output cavity field is achievable. Furthermore, one can attain simultaneous strong quantum amplification, added-noise suppression, and controllable gain-bandwidth for the complementary quadratures of squeezed ones in the subsystems. |
Databáze: | OpenAIRE |
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