量子纠缠
制冷
物理
光子
W州
量子
量子力学
光力学
光学腔
光子纠缠
热力学
激光器
作者
Deng-Gao Lai,Wei Qin,Bang‐Pin Hou,Adam Miranowicz,Franco Nori
出处
期刊:Physical review
[American Physical Society]
日期:2021-10-22
卷期号:104 (4)
标识
DOI:10.1103/physreva.104.043521
摘要
We propose how to achieve significantly enhanced quantum refrigeration and entanglement by coupling a pumped auxiliary cavity to an optomechanical cavity. We obtain both analytical and numerical results, and find optimal-refrigeration and -entanglement conditions under the auxiliary-cavity-assisted (ACA) mechanism. Our method leads to a giant amplification in the net refrigeration rate, and reveals that the ACA entanglement has a much stronger noise-tolerant ability in comparison with the unassisted case. By appropriately designing the ACA mechanism, an effective mechanical susceptibility can be well adjusted, and a genuine tripartite entanglement of cooling-cavity photons, auxiliary-cavity photons, and phonons could be generated. Specifically, we show that both optomechanical refrigeration and entanglement can be greatly enhanced for the blue-detuned driving of the auxiliary cavity but suppressed for the red-detuned case. Our work paves a way towards further quantum control of macroscopic mechanical systems and the enhancement and protection of fragile quantum resources.
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