利用极化光谱学的基于里德伯原子的微波电测量学

arXiv - PHYS - Atomic Physics Pub Date : 2024-07-29 DOI:arxiv-2407.20433

Naomy Duarte Gomes, Vinicius Marrara Pepino, Ben-Hur Viana Borges, Daniel Varela Magalhães, Reginaldo de Jesus Napolitano, Manuel Alejandro Lefrán Torres, Jorge Douglas Massayuki Kondo, Luis Gustavo Marcassa

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引用次数: 0

摘要

在这项研究中，我们利用室温蒸汽池中的偏振光谱法研究了基于雷德贝格原子的微波电学。通过测量电磁诱导透明（EIT）光谱中的奥特勒-唐恩斯分裂，我们确定可测量的最小微波电场比传统的 EIT 技术低约五倍。全光学布洛赫方程模型很好地再现了这一结果，该模型考虑到了所涉及的所有超正弦水平。随后，我们使用 EIT 设置对定制的微波圆柱透镜进行了表征，该透镜将焦点处的场增加了三倍，同时将可测量的最小微波电场降低了相同的数量。我们的研究结果表明，将极化光谱仪和微波透镜结合起来可以提高微波电场测量的效果。

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Rydberg atom-based microwave electrometry using polarization spectroscopy

In this study, we investigated Rydberg atom-based microwave electrometry using polarization spectroscopy in a room-temperature vapor cell. By measuring Autler-Townes splitting in the electromagnetically induced transparency (EIT) spectrum, we determined that the minimum measurable microwave electric field is approximately five times lower than conventional EIT techniques. The results are well reproduced by a full optical Bloch equation model, which takes into account all the hyperfine levels involved. Subsequently, the EIT setup was used to characterize a custom microwave cylindrical lens, which increases the field at the focus by a factor of three, decreasing the minimum measurable microwave electric field by the same amount. Our results indicate that the combination of polarization spectroscopy and a microwave lens may enhance microwave electrometry.

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arXiv - PHYS - Atomic Physics

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