通过模拟湍流大气塑造纠缠光子

IF 1.6 Q3 OPTICS
OSA Continuum Pub Date : 2021-08-08 DOI:10.1364/OSAC.431200
Ronen Shekel, Ohad Lib, Alon Sardas, Y. Bromberg
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引用次数: 1

摘要

大气湍流的散射是创建长自由空间光学链路,特别是纠缠光子链路的主要挑战之一。由于固有的低信噪比和纠缠的脆弱性,传统的补偿方法难以应用于纠缠光子。我们最近已经证明,我们可以使用明亮的激光束泵浦自发参数下转换来控制纠缠光子之间的空间相关性,以补偿它们的散射。在这项工作中,我们应用泵浦整形技术来补偿被模拟大气湍流散射的纠缠光子之间的相关性的置乱。我们使用空间光调制器和Kolmogorov湍流模型模拟实验室中的大气湍流,并通过泵浦优化将纠缠光子信号增强了15倍。我们在静态和动态模拟大气中都证明了这一点,并且还证明了高阶模式散射的补偿。我们的结果可以为实现纠缠光子的自由空间量子链路打开大门,用于量子密钥分发等应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Shaping entangled photons through emulated turbulent atmosphere
Scattering by atmospheric turbulence is one of the main challenges in creating long free-space optical links, and specifically links of entangled photons. Classical compensation methods are hard to apply to entangled photons, due to inherently low signal to noise ratios and the fragility of entanglement. We have recently shown that we can use a bright laser beam that pumps spontaneous parametric down conversion to control the spatial correlations between entangled photons for compensating their scattering. In this work, we apply the pump-shaping technique to compensate for the scrambling of correlations between entangled photons that scatter by emulated atmospheric turbulence. We use a spatial light modulator and Kolmogorov’s turbulence model to emulate atmospheric turbulence in the lab, and enhance the entangled photons’ signal by a factor of fifteen using pump optimization. We show this for both a static and dynamic emulated atmosphere, and also demonstrate the compensation of the scattering of a higher-order mode. Our results can open the door towards realizing free-space quantum links with entangled photons, used in applications such as quantum key distribution.
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来源期刊
OSA Continuum
OSA Continuum OPTICS-
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