Asia-Pacific Conference on Communications (APCC) 2023, pp.132-135
Language
English
Type
Conference Paper
Project Code
23HH3800, Development of ultra-sensitive electric field detection technology based on non-metals,
Cho In Kui
Abstract
The inherent advantages of the Rydberg atom, including its sensitivity, dynamic range and immunity to electromagnetic interference, allow for precise electric fields and can be applied in a variety of applications such as telecommunications, electronics and environmental monitoring. In this paper, we propose a method for accurately measuring the electric field in a wide frequency range from several GHz to THz frequency by utilizing the Rydberg state of non-metallic Rb atoms, and compare existing antenna measurements and a comparison provides insight into the performance and shows that it is a promising technology for electric field sensing using the unique properties of Rydberg atoms.
KSP Keywords
Antenna Measurements, Electromagnetic interference, Environmental monitoring, Rydberg atoms, Rydberg state, THz frequency, dynamic range, electric field measurement, electric field sensing, millimeter wave(mmWave), wide frequency range
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