Complete three-dimensional vector polarimetry with a Rydberg atom rf electrometer

arXiv - PHYS - Atomic Physics Pub Date : 2024-07-29 DOI:arxiv-2407.20369

Peter K. Elgee, Kevin C. Cox, Joshua C. Hill, Paul D. Kunz, David H. Meyer

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Abstract

Radio frequency (rf) receivers using Rydberg atoms offer appealing features over classical sensors, such as their size, frequency tuning range, and lack of field absorption. In this work, we extend the application space by demonstrating a Rydberg atom rf polarimeter. Using rf heterodyne with three independent and orthogonal local oscillators, we are able to extract the polarization ellipse of the field in three dimensions, in addition to the total amplitude of the field. We use the relative phases and amplitudes of the three generated heterodyne signals to measure the field amplitudes and phases along three cardinal axes giving the full three-dimensional polarization. We demonstrate this polarization measurement for incoming fields at different angles around the sensor. Lastly, we investigate the reception of data symbols encoded in the horizontal and vertical signal field polarizations and the phase between them. Our measurements yield an amplitude noise of 57 $\mu$V/m/$\sqrt{\text{Hz}}$ for horizontal polarization, 66 $\mu$V/m/$\sqrt{\text{Hz}}$ for vertical polarization, and a standard deviation of 0.094 rad in the phase between the field components.

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利用雷德堡原子射频电子测量仪完成三维矢量极化测量

与传统传感器相比，使用雷德堡原子的射频（rf）接收器具有体积小、频率调节范围大、无场吸收等吸引人的特点。在这项工作中，我们通过演示雷德堡原子射频偏振计扩展了应用空间。利用具有三个独立正交局部振荡器的射频外差法，我们能够在三个维度上提取场的极化椭圆，以及场的总振幅。我们利用三产生的外差信号的相对相位和振幅来测量沿三个心轴的场振幅和相位，从而得到完整的三维极化。我们对传感器周围不同角度的入射场进行了偏振测量演示。最后，我们研究了以水平和垂直信号场极化编码的数据符号的接收以及它们之间的相位。我们的测量结果表明，水平极化的振幅噪声为 57$\mu$V/m/$\sqrt\{text{Hz}}$，垂直极化的振幅噪声为 66$\mu$V/m/$\sqrt\{text{Hz}}$，场分量之间相位的标准偏差为 0.094 rad。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Atomic Physics

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