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Paper detail

Rydberg atom-based field sensing enhancement using a split-ring resonator

We investigate the use of a split-ring resonator (SRR) incorporated with an atomic-vapor cell to improve the sensitivity and the minimal detectable electric (E) field of Rydberg atom-based sensors. In this approach, a sub-wavelength SRR is placed around an atomic vapor-cell filled with cesium atoms for E-field measurements at 1.3~GHz. The SRR provides a factor of 100 in the enhancement of the E-field measurement sensitivity. Using electromagnetically induced transparency (EIT) with Aulter-Townes splitting, E-field measurements down to 5~mV/m are demonstrated with the SRR, while in the absence of the SRR, the minimal detectable field is 500~mV/m. We demonstrate that by combining EIT with a heterodyne Rydberg atom-based mixer approach, the SRR allows for the a sensitivity of 5.5~$μ$V/m$\sqrt{\rm Hz}$, which is two-orders of magnitude improvement in sensitivity than when the SRR is not used.

preprint2022arXivOpen access
Christopher L. HollowayNikunjkumar PrajapatiAlexandra B. Artusio-GlimpseSamuel BerwegerYoshiaki KasaharaAndrea AluRichard W. Ziolkowski
physics.atom-phquant-ph
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Christopher L. HollowayNikunjkumar PrajapatiAlexandra B. Artusio-GlimpseSamuel BerwegerYoshiaki KasaharaAndrea AluRichard W. Ziolkowski

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