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Paper detail

Testing gravitational redshift based on microwave frequency links onboard China Space Station

In 2022 China Space Station (CSS) will be equipped with atomic clocks and optical clocks with stabilities of $2 \times 10^{-16}$ and $8 \times 10^{-18}$, respectively, which provides an excellent opportunity to test gravitational redshift (GR) with higher accuracy than previous results. Based on high-precise frequency links between CSS and a ground station, we formulated a model and provided simulation experiments to test GR. Simulation results suggest that this method could test the GR at the accuracy level of $(0.27 \pm 2.15) \times10^{-7}$, more than two orders in magnitude higher than the result of the experiment of a hydrogen clock on board a flying rocket more than 40 years ago.

preprint2022arXivOpen access
Wenbin ShenPengfei ZhangZiyu ShenRui XuXiao SunMostafa AshryAbdelrahim RubyWei XuKuangchao WuYifan WuAn NingLei WangLihong LiChenghui Cai
astro-ph.IMphysics.geo-phgr-qc
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Wenbin ShenPengfei ZhangZiyu ShenRui XuXiao SunMostafa AshryAbdelrahim RubyWei XuKuangchao WuYifan WuAn NingLei WangLihong LiChenghui Cai

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