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Autori principali: Bohaichuk, Stephanie M., Venu, Vijin, Christaller, Florian, Shaffer, James P.
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2508.13132
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author Bohaichuk, Stephanie M.
Venu, Vijin
Christaller, Florian
Shaffer, James P.
author_facet Bohaichuk, Stephanie M.
Venu, Vijin
Christaller, Florian
Shaffer, James P.
contents Although Rydberg atoms have shown promise for use in novel types of radio frequency receivers, they have generally not been considered phase sensitive without the use of closed-loop interferometry or auxiliary radio frequency fields. Here, we show that the high coherency of a narrow-linewidth three-photon ladder excitation scheme unique to Cesium atoms enables all-optical sensing of transient changes in RF phase within a room temperature vapor cell. The transient response on the probe laser's transmission originates from phase-to-amplitude conversion via a disturbance of the coherency of the system in response to the phase shift of the radio frequency field. We show that the amplitude and frequency of the oscillatory response provides information on the magnitude and direction of any radio frequency field detuning. We demonstrate that the detuning sensitivity can be used to identify Doppler shifts in radar applications, by applying phase shifts embedded in radio frequency pulses. The phase modulation within the radar pulse acts as a form of compression that facilitates the simultaneous detection of both target position and velocity.
format Preprint
id arxiv_https___arxiv_org_abs_2508_13132
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Transient Phase Sensing in a Three-Photon Rydberg Ladder Scheme
Bohaichuk, Stephanie M.
Venu, Vijin
Christaller, Florian
Shaffer, James P.
Atomic Physics
Although Rydberg atoms have shown promise for use in novel types of radio frequency receivers, they have generally not been considered phase sensitive without the use of closed-loop interferometry or auxiliary radio frequency fields. Here, we show that the high coherency of a narrow-linewidth three-photon ladder excitation scheme unique to Cesium atoms enables all-optical sensing of transient changes in RF phase within a room temperature vapor cell. The transient response on the probe laser's transmission originates from phase-to-amplitude conversion via a disturbance of the coherency of the system in response to the phase shift of the radio frequency field. We show that the amplitude and frequency of the oscillatory response provides information on the magnitude and direction of any radio frequency field detuning. We demonstrate that the detuning sensitivity can be used to identify Doppler shifts in radar applications, by applying phase shifts embedded in radio frequency pulses. The phase modulation within the radar pulse acts as a form of compression that facilitates the simultaneous detection of both target position and velocity.
title Transient Phase Sensing in a Three-Photon Rydberg Ladder Scheme
topic Atomic Physics
url https://arxiv.org/abs/2508.13132