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Highly Sensitive Measurement of a Megahertz rf Electric Field with a Rydberg-Atom Sensor

Bang Liu, Lihua Zhang, Zong-Kai Liu, Zheng-Yuan Zhang, Zhi‐Han Zhu, Wei Gao, Guang‐Can Guo, Dong-Sheng Ding, Bao‐Sen Shi

2022Physical Review Applied90 citationsDOIOpen Access PDF

Abstract

Rydberg atoms have great potential in electric field measurement and have an advantage with a large frequency bandwidth from the kHz to the THz scale. However, the sensitivity for measuring a weak MHz electric field signal is limited by the spectroscopic resolution, because the weak electric field induces only a small perturbation of the population and energy-level shift of the Rydberg atoms. Here, we report highly sensitive measurement of a weak MHz electric field using electromagnetically induced transparency with Rydberg atoms in a thermal atomic system. Using the heterodyne method on a 30-MHz electric field, we successfully measure the minimum electric field strength to be $37.3\phantom{\rule{0.2em}{0ex}}\ensuremath{\mu}\mathrm{V}/\mathrm{cm}$ with a sensitivity up to $\ensuremath{-}65$ dBm/Hz and a linear dynamic range over 65 dB. Additionally, we measure an amplitude-modulated signal and demodulate the signal with a fidelity over 98%. This work extends the sensitivity of atomic sensors for measuring MHz electric fields, which advances atomic electric field-sensing technology.

Topics & Concepts

Electric fieldPhysicsRydberg atomRydberg formulaAtomic physicsSensitivity (control systems)AmplitudePopulationOpticsIonizationIonQuantum mechanicsElectronic engineeringEngineeringSociologyDemographyCold Atom Physics and Bose-Einstein CondensatesAtomic and Subatomic Physics ResearchQuantum optics and atomic interactions
Highly Sensitive Measurement of a Megahertz rf Electric Field with a Rydberg-Atom Sensor | Litcius