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Main Authors: Di, Ke, Ye, Chenglin, Du, Yijie, Liu, Meihui, Shi, Pengfei, Liu, Yu, Du, Jiajia, He, Jun
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.18629
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_version_ 1866909752874762240
author Di, Ke
Ye, Chenglin
Du, Yijie
Liu, Meihui
Shi, Pengfei
Liu, Yu
Du, Jiajia
He, Jun
author_facet Di, Ke
Ye, Chenglin
Du, Yijie
Liu, Meihui
Shi, Pengfei
Liu, Yu
Du, Jiajia
He, Jun
contents We innovatively propose a method to improve the performance of Rydberg atom sensors based on the repetition frequency of pulsed lasers, which is verified in experiments. Rydberg atoms excited by pulsed lasers are influenced significantly by the repetition frequency of the pulsed laser on the Rydberg state population. As the number of Rydberg atoms increases, the measurement sensitivity of the sensor to external fields also increases, directly enhancing the performance of the sensor. This paper investigates the response of the sensor to the same electric field when the repetition frequency of the pulsed laser is at the MHz level, with a focus on its gain effects on the broadcast communication frequency bands of 66MHz and 88MHz. This study validates the unique advantages of pulsed light for Rydberg atom excitation, improving the effective detection of weak signals and providing a new approach for fabricating more sensitive atomic sensors.
format Preprint
id arxiv_https___arxiv_org_abs_2508_18629
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Theoretical and experimental study of the correlation between pulsed light repetition frequency and electric field measurement
Di, Ke
Ye, Chenglin
Du, Yijie
Liu, Meihui
Shi, Pengfei
Liu, Yu
Du, Jiajia
He, Jun
Atomic Physics
Quantum Physics
We innovatively propose a method to improve the performance of Rydberg atom sensors based on the repetition frequency of pulsed lasers, which is verified in experiments. Rydberg atoms excited by pulsed lasers are influenced significantly by the repetition frequency of the pulsed laser on the Rydberg state population. As the number of Rydberg atoms increases, the measurement sensitivity of the sensor to external fields also increases, directly enhancing the performance of the sensor. This paper investigates the response of the sensor to the same electric field when the repetition frequency of the pulsed laser is at the MHz level, with a focus on its gain effects on the broadcast communication frequency bands of 66MHz and 88MHz. This study validates the unique advantages of pulsed light for Rydberg atom excitation, improving the effective detection of weak signals and providing a new approach for fabricating more sensitive atomic sensors.
title Theoretical and experimental study of the correlation between pulsed light repetition frequency and electric field measurement
topic Atomic Physics
Quantum Physics
url https://arxiv.org/abs/2508.18629