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Autori principali: Zhang, Peng Fei, Wang, Chen Xiang, Li, Li Hong, Wang, Lei, Shen, Zi Yu, Xu, Rui, Ning, An, Ruby, Abdelrahim, Shen, Wen-Bin
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2501.00304
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author Zhang, Peng Fei
Wang, Chen Xiang
Li, Li Hong
Wang, Lei
Shen, Zi Yu
Xu, Rui
Ning, An
Ruby, Abdelrahim
Shen, Wen-Bin
author_facet Zhang, Peng Fei
Wang, Chen Xiang
Li, Li Hong
Wang, Lei
Shen, Zi Yu
Xu, Rui
Ning, An
Ruby, Abdelrahim
Shen, Wen-Bin
contents The China Space Station (CSS) is currently in orbit and carries the high-precision optical atomic clock with stability of approximately $2.0 \times 10^{-15} / \sqrtτ$ in its experiment module. We have developed a model to determine the gravity potential (GP) based on the gravity frequency shift equation and have created both one-way and dual-frequency transfer models up to $c^{-4}$. These models consider effects from the troposphere, ionosphere, and solid Earth tides. The proposed model is suitable for measurements at the magnitude of $10^{-19}$. Based on the CSS mission, we conducted the simulation experiments. The results indicate that when processing the simulation frequency signal using the proposed model, we can obtain the GP with the accuracies of $ (1.13\pm0.71)\,\mathrm{m^2/s^2}$, $ (0.09\pm0.89)\,\mathrm{m^2/s^2}$, and $(0.66\pm1.18)\,\mathrm{m^2/s^2}$ for cutoff elevation angles of $5^{\circ}$, $10^{\circ}$ and $15^{\circ}$, respectively. With the high-precision optical atomic clock onboard the CSS, the proposed model enables us to measure the GP differences in the magnitude of centimeter-level accuracy.
format Preprint
id arxiv_https___arxiv_org_abs_2501_00304
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Gravity potential determination based on China Space Station Dual-frequency microwave links frequency transfer
Zhang, Peng Fei
Wang, Chen Xiang
Li, Li Hong
Wang, Lei
Shen, Zi Yu
Xu, Rui
Ning, An
Ruby, Abdelrahim
Shen, Wen-Bin
Geophysics
General Relativity and Quantum Cosmology
The China Space Station (CSS) is currently in orbit and carries the high-precision optical atomic clock with stability of approximately $2.0 \times 10^{-15} / \sqrtτ$ in its experiment module. We have developed a model to determine the gravity potential (GP) based on the gravity frequency shift equation and have created both one-way and dual-frequency transfer models up to $c^{-4}$. These models consider effects from the troposphere, ionosphere, and solid Earth tides. The proposed model is suitable for measurements at the magnitude of $10^{-19}$. Based on the CSS mission, we conducted the simulation experiments. The results indicate that when processing the simulation frequency signal using the proposed model, we can obtain the GP with the accuracies of $ (1.13\pm0.71)\,\mathrm{m^2/s^2}$, $ (0.09\pm0.89)\,\mathrm{m^2/s^2}$, and $(0.66\pm1.18)\,\mathrm{m^2/s^2}$ for cutoff elevation angles of $5^{\circ}$, $10^{\circ}$ and $15^{\circ}$, respectively. With the high-precision optical atomic clock onboard the CSS, the proposed model enables us to measure the GP differences in the magnitude of centimeter-level accuracy.
title Gravity potential determination based on China Space Station Dual-frequency microwave links frequency transfer
topic Geophysics
General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2501.00304