在基于雷德贝格原子的混频器中使用两个偏振正交局部微波电场测量微波偏振

arXiv - PHYS - Atomic Physics Pub Date : 2024-08-02 DOI:arxiv-2408.00988

Weibo Yin, Jianan Zhang, Fengdong Jia, Yuhan Wang, Yuxiang Wang, Jianhai Hao, Yue Cui, Ya Liu, Zhiping Zhong

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引用次数: 0

摘要

我们提出并演示了一种测量微波电场极化方向的新方法，该方法是利用基于雷德贝格原子的混频器与两个正交极化局部微波电场进行一次测量。此外，引入微弱的静态磁场可以利用泽曼效应和极化不对称。这种区别可以确定微波场的极化方向是{\theta}还是180{deg}-{\theta}，范围在0到180度之间。

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Measurement of microwave polarization using two polarization orthogonal local microwave electric fields in a Rydberg atom-based mixer

We propose and demonstrate a novel method for measuring the polarization direction of a microwave electric field in a single measurement using a Rydberg atom-based mixer with two orthogonally polarized local microwave electric fields. Furthermore, introducing a weak static magnetic field enables the utilization of the Zeeman effect and exploitation of polarization asymmetry. This distinction allows for determining the polarization direction of the microwave field is{\theta}or180{\deg}-{\theta}within the 0 to 180 degree range. This is the first real-time measurement of microwave polarization within 0 to 180 degrees, crucial for microwave sensing and information transmission.

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arXiv - PHYS - Atomic Physics

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