微电子机械系统
材料科学
光电子学
电介质
放大器
里德堡原子
Atom(片上系统)
无线电频率
原子物理学
里德伯公式
物理
电气工程
工程类
离子
嵌入式系统
电离
量子力学
CMOS芯片
作者
Somayeh M. A. Mirzaee,Su‐Peng Yu,Sanyasi Rao Bobbara,Rajesh Pandiyan,Donald Booth,Mohammad Noaman,Sohail A. Jalil,James P. Shaffer
摘要
Engineered, metamaterial vapor cells are useful for high-sensitivity Rydberg atom-based radio frequency (RF) sensors. We present recent advancements on a photonic crystal receiver (PCR) fabricated using MEMS technology for sensitive RF field detection. Beyond the established operational principles leveraging electromagnetically induced transparency (EIT) within alkali atom ensembles, we describe critical factors impacting the performance of the PCR, namely the generation of electric fields arising from Cesium atom interactions with the vapor cell materials. Through X-ray Photoelectron Spectroscopy (XPS) analysis of the glass and silicon components, we determine the amount of Cesium that is adsorbed to the glass and silicon surfaces. The insights into surface adsorption and its control are crucial for improving the stability and practical applicability of PCR-based RF sensors, as well as other types of MEMS vapor cells.
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