电离
灵敏度(控制系统)
原子物理学
电场
里德伯公式
材料科学
场解吸
铯
电磁感应透明
无线电频率
里德堡原子
热电离
度量(数据仓库)
里德堡州
化学
物理
电离能
光电子学
领域(数学)
氙气
分析化学(期刊)
斯塔克效应
光离子化
电流(流体)
作者
Dangka Shylla,Rajavardhan Talashila,Alexandra Artusio-Glimpse,Adil Meraki,Dixith Manchaiah,Noah Schlossberger,Samuel Berweger,Matthew T. Simons,Christopher L. Holloway,Nikunjkumar Prajapati
出处
期刊:AVS quantum science
[American Vacuum Society]
日期:2026-01-27
卷期号:8 (1)
摘要
We investigate a technique for detecting radio frequency (RF) electric fields in a cesium (Cs) vapor cell at room temperature by collecting charges from ionized Rydberg atoms and compare its performance with the established method of electromagnetically induced transparency (EIT). By applying a known RF field, we measure the response from both the electrical (ionization current-based) and optical (EIT-based) readouts. The ionization current-based method yields a sensitivity of 22 μ V m−1 Hz−1/2, while the EIT-based method achieves 3.7 μ V m−1 Hz−1/2. The sensitivity of the ionization current-based method is limited by the 2.2 k Ω resistance between the collection electrodes, attributed to a thin Cs film on the inner surfaces of the vapor cell. Controlling or eliminating the Cs layer can significantly improve the sensitivity of this ionization approach.
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