Microwave electrometry with Rydberg atoms in a vapor cell using microwave amplitude modulation

Hao 郝, Jian-Hai 建海; Jia 贾, Feng-Dong 凤东; Cui 崔, Yue 越; Wang 王, Yu-Han 昱寒; Zhou 周, Fei 飞; Liu 刘, Xiu-Bin 修彬; Zhang 张, Jian 剑; Xie 谢, Feng 锋; Bai 白, Jin-Hai 金海; You 尤, Jian-Qi 建琦; Wang 王, Yu 宇; Zhong 钟, Zhi-Ping 志萍

doi:10.1088/1674-1056/ad1a8f

Chinese Phys. B

2024

DOI: 10.1088/1674-1056/ad1a8f

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Microwave electrometry with Rydberg atoms in a vapor cell using microwave amplitude modulation

Jian-Hai 建海 Hao 郝,

Feng-Dong 凤东 Jia 贾,

Yue 越 Cui 崔

et al.

Abstract: We have theoretically and experimentally studied the dispersive signal of the Rydberg atomic electromagnetically induced transparency (EIT) - Autler-Townes (AT) splitting spectra obtained using amplitude modulation of the microwave (MW) electric field. In addition to the two zero-crossing points interval $\Delta f_{\text{zeros}}$, the dispersion signal has two positive maxima with an interval defined as the shoulder interval $\Delta f_{\text{sho}}$, which is theoretically expected to be used to measure a much … Show more

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Cited by 2 publications

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Simultaneously measuring microwave electric fields at different frequencies by Rydberg-atom-based electrometry with Zeeman-resolved Autler–Townes splitting

Wang,

Liu,

Zhang

et al. 2024

AIP Advances

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We provide the simultaneous traceable measurements of microwave electric fields at two different frequencies by the electromagnetically induced transparency (EIT) and Autler–Townes (AT) splitting. A static magnetic field working together with a linearly polarized probe and coupling light prepares Rydberg atoms in Zeeman sublevels with maximal |mJ| in an atomic vapor cell. Using the EIT-AT splitting of these two maximal |mJ| states, the microwave electric fields at two different frequencies are simultaneously measured, in which their frequency difference can be adjustable within the linear range of magnetic field-induced level shifts. The proposed method provides a promising prospect for calibrating multiple microwave frequencies simultaneously in the future.

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Simultaneously measuring microwave electric fields at different frequencies by Rydberg-atom-based electrometry with Zeeman-resolved Autler–Townes splitting

Wang,

Liu,

Zhang

et al. 2024

AIP Advances

View full text Add to dashboard Cite

show abstract

Rydberg-atom-based multiband frequency-hopping communication receiver using five-level atomic system

Wen,

Yan,

Wang

et al. 2024

Opt. Express

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A frequency-hopping communication receiver based on Rydberg atoms, whose carrier frequency changes in accordance with a predetermined sequence, is proposed for what we believe to be the first time and experimentally verified. Based on the coherent population trapping (CPT) effect of atoms, a five-level system is built under the assumption of a constant laser wavelength, where the carrier is the resonance band corresponding to different separated quantum states. Pseudo-random binary sequence (PRBS) and complex image signals undergo keying modulation to achieve frequency-domain hopping reception. In the experiment, a dynamic range of 62 dB is demonstrated. The digital transmission with a data rate of 1 Mbps is performed reliably, within a tunable bandwidth of 50 MHz, an instantaneous bandwidth of 700 kHz and a max hopping rate of 20000 hop/s. The proposed atom-based frequency-hopping receiver is suitable for secure communications, satellite uplinks, quantum cryptography, and high-precision scientific research.

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Microwave electrometry with Rydberg atoms in a vapor cell using microwave amplitude modulation

Cited by 2 publications

References 43 publications

Simultaneously measuring microwave electric fields at different frequencies by Rydberg-atom-based electrometry with Zeeman-resolved Autler–Townes splitting

Simultaneously measuring microwave electric fields at different frequencies by Rydberg-atom-based electrometry with Zeeman-resolved Autler–Townes splitting

Rydberg-atom-based multiband frequency-hopping communication receiver using five-level atomic system

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