后向受激布里渊散射诱导的光机械纠缠

IF 3.1 3区 物理与天体物理 Q2 Engineering
Optik Pub Date : 2024-11-04 DOI:10.1016/j.ijleo.2024.172097
P. Djorwé , A.-H. Abdel-Aty , K.S. Nisar , S.G.N. Engo
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引用次数: 0

摘要

我们提出了一种产生稳健光机械纠缠(即机械模式和光学模式之间的纠缠)的方案。该方案基于后向受激布里渊散射(BSBS)过程,并将其置于光机械结构中。我们的基准系统包括通过电致伸缩(辐射压力)效应耦合到两个光学模式的声学(机械)模式。在确定了允许在我们的系统中产生纠缠的最佳声学参数之后,我们已经证明,声学耦合和衰减率都需要一定的阈值才能产生光机械纠缠。例如,要在我们的方案中产生光机纠缠,所使用的声衰减率强度必须超过机械和光学衰减率,这就是我们方案的优点。生成的纠缠对热波动有足够的鲁棒性。我们的工作为基于 BSBS 效应的纠缠生成提供了一种新方案,并可扩展到微波和混合光机电结构。这种生成的纠缠态可用于量子信息处理、量子传感和量子计算。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optomechanical entanglement induced by backward stimulated Brillouin scattering
We propose a scheme to generate robust optomechanical entanglement, i.e., the entanglement between a mechanical and an optical modes. This scheme is based on a Backward Stimulated Brillouin Scattering (BSBS) process, which is hosted within an optomechanical structure. Our benchmark system consists of an acoustic (mechanical) mode coupled to two optical modes through an electrostrictive (radiation pressure) effect. After determining the optimal acoustic parameters allowing the entanglement in our system, we have shown that both the acoustic coupling and the decay rate require a certain threshold from where the optomechanical entanglement is generated. For instance, to generate an optomechanical entanglement in our proposal, the strength of the used acoustic decay rate most exceed both the mechanical and optical decay rates, which is the figure of merit of our proposal. The generated entanglement is robust enough against thermal fluctuation. Our work provides a new scheme for entanglement generation based on BSBS effect, and can be extended to microwaves and hybrid optomechanical structures. Such a generated entangled states can be used for quantum information processing, quantum sensing, and quantum computing.
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来源期刊
Optik
Optik 物理-光学
CiteScore
6.90
自引率
12.90%
发文量
1471
审稿时长
46 days
期刊介绍: Optik publishes articles on all subjects related to light and electron optics and offers a survey on the state of research and technical development within the following fields: Optics: -Optics design, geometrical and beam optics, wave optics- Optical and micro-optical components, diffractive optics, devices and systems- Photoelectric and optoelectronic devices- Optical properties of materials, nonlinear optics, wave propagation and transmission in homogeneous and inhomogeneous materials- Information optics, image formation and processing, holographic techniques, microscopes and spectrometer techniques, and image analysis- Optical testing and measuring techniques- Optical communication and computing- Physiological optics- As well as other related topics.
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