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Main Authors: Wang, Jialiang, Zeng, Deling, Gui, Youzhen, Dong, Lian, Wei, Rong
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2401.04353
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_version_ 1866910290885476352
author Wang, Jialiang
Zeng, Deling
Gui, Youzhen
Dong, Lian
Wei, Rong
author_facet Wang, Jialiang
Zeng, Deling
Gui, Youzhen
Dong, Lian
Wei, Rong
contents We demonstrate a distributed atomic clocks network between Shanghai Institute of Optics and fine Mechanics (SIOM) and Shanghai Institute of Measurement and Test (SIMT). The frequency signals from three different clocks transfer in one fiber link and four clocks can have comparison in two different labs.By comparing the results of the comparison between the two labs, it was found that the consistency of the frequency signal is on the order of lower than 1E-15. And we also achieve consistency between two locations at the E-15 level of frequency reporting. This scheme can achieve distributed time counting and frequency dissemination of remote atomic clocks, which is a new exploration of the future time keeping laboratory mode.
format Preprint
id arxiv_https___arxiv_org_abs_2401_04353
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Counting and metrology of distributed atomic clocks using metropolitan fiber
Wang, Jialiang
Zeng, Deling
Gui, Youzhen
Dong, Lian
Wei, Rong
Atomic Physics
Quantum Physics
We demonstrate a distributed atomic clocks network between Shanghai Institute of Optics and fine Mechanics (SIOM) and Shanghai Institute of Measurement and Test (SIMT). The frequency signals from three different clocks transfer in one fiber link and four clocks can have comparison in two different labs.By comparing the results of the comparison between the two labs, it was found that the consistency of the frequency signal is on the order of lower than 1E-15. And we also achieve consistency between two locations at the E-15 level of frequency reporting. This scheme can achieve distributed time counting and frequency dissemination of remote atomic clocks, which is a new exploration of the future time keeping laboratory mode.
title Counting and metrology of distributed atomic clocks using metropolitan fiber
topic Atomic Physics
Quantum Physics
url https://arxiv.org/abs/2401.04353