Optomechanically Induced Transparency of Double-Cavity Optomechanical System with \(\mathcal{P}\mathcal{T}-\)Symmetry and \(\mathcal{P}\mathcal{T}-\)Asymmetry

IF 1.3 4区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY
Yueming Wang
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引用次数: 0

Abstract

Opto-mechanical systems have been investigated both theoretically and experimentally characteristic of optomechanically induced transparency (OMIT), i.e., sharp transmission features controlled by a second control beam. We studied theoretically the opto-mechanically induced transparency (OMIT) properties of double-cavity opto-mechanical system with \(\mathcal{P}\mathcal{T}-\)symmetry and \(\mathcal{P}\mathcal{T}\)-asymmetry within the setting of cavity quantum electrodynamics. By means of Fourier transformation we get the pump-probe spectroscopy exactly and find the second cavity plays important roles in the properties of probe beam transmission. The dip value of OMIT can reach zero which means perfect transmission. There appear two transparency windows for the probe beam in one resonator with the increasing power of control laser beam fed into the other resonator, especially the probe beam can obtain significant gain even without direct tunneling of photons between two resonators. We expect our results would be realized experimentally and be useful for the future designs of quantum functional devices.

Abstract Image

具有 $$\mathcal{P}\mathcal{T}-$ 对称性和 $$\mathcal{P}\mathcal{T}-$ 不对称的双腔光学机械系统的光学机械诱导透明度
光机械系统在理论和实验上都具有光机械诱导透明(OMIT)的特征,即由第二控制光束控制的尖锐透射特征。我们在腔体量子电动力学的背景下从理论上研究了具有(\mathcal{P}\mathcal{T}-\)对称性和(\mathcal{P}\mathcal{T}\)不对称性的双腔光机电系统的光机电诱导透明(OMIT)特性。通过傅立叶变换,我们精确地得到了泵浦-探针光谱,并发现第二空腔在探针光束传输特性中起着重要作用。OMIT 的倾角值可以达到零,这意味着完美的传输。随着馈入另一个谐振器的控制激光束功率的增加,探针光束在一个谐振器中出现了两个透明窗口,特别是探针光束即使在两个谐振器之间没有光子直接隧道也能获得显著增益。我们希望我们的结果能在实验中实现,并对未来量子功能器件的设计有所帮助。
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来源期刊
CiteScore
2.50
自引率
21.40%
发文量
258
审稿时长
3.3 months
期刊介绍: International Journal of Theoretical Physics publishes original research and reviews in theoretical physics and neighboring fields. Dedicated to the unification of the latest physics research, this journal seeks to map the direction of future research by original work in traditional physics like general relativity, quantum theory with relativistic quantum field theory,as used in particle physics, and by fresh inquiry into quantum measurement theory, and other similarly fundamental areas, e.g. quantum geometry and quantum logic, etc.
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