摘要
量子纠缠信号独特的空间关联特性可以突破经典成像所面临的距离、精度等技术壁垒.由此总结纠缠信号"鬼成像"的原理,将之引入导航领域,提出一种基于腔电光力转换器制备的杂化纠缠量子信号的成像方案.通过理论分析和仿真,相比于传统成像方式,其充分利用纠缠微波信号空间关联特性,以"非局域"的方式生成了用经典方法无法看到的图像.在弱信号探测时,信噪比高于经典方案,即成像质量优于经典方案,且具有经典方案不具备的极强的抗大气湍流扰动能力.
The unique spatial correlation properties of quantum entangled signals can overcome technical barriers,such as those presented by the distance and accuracy,encountered by classical imaging approaches.Therefore,herein,the principle of“ghost imaging”of entangled signals is summarized and is then introduced in the field of navigation.Accordingly,an imaging scheme of hybrid entangled quantum signals generated using a cavity�electric photoelectric light converter is proposed.In contrast to the traditional imaging method,herein,based on theoretical analyses and simulations,the spatial correlation characteristics of entangled microwave signals are completely utilized,and the images that cannot be observed by classical methods are generated in a“nonlocal”manner;correspondingly,the signal�to�noise ratio is higher than that of the classical scheme when weak signals are detected.That is,the imaging quality is better than that of the classical scheme,and it has the ability to resist atmospheric turbulence disturbances unlike the classical scheme.
作者
任钊恒
苗强
吴德伟
魏天丽
赵露涵
刘勇飞
Ren Zhaoheng;Miao Qiang;Wu Dewei;Wei Tianli;Zhao Luhan;Liu Yongfei(College of Information and Navigation,Air Force Engineering University,Xi’an 710077,Shaanxi,China)
出处
《激光与光电子学进展》
CSCD
北大核心
2023年第6期327-333,共7页
Laser & Optoelectronics Progress
基金
国家自然科学基金(62073338)。
关键词
量子微波
无线电导航
腔电光力
空间关联
成像
抗大气湍流扰动
quantum microwave
radio navigation
cavity electro�optical power
spatial association
imaging
anti�atmospheric turbulence
