Test of Equivalence Principle at $10^{-8}$ Level by a Dual-species Double-diffraction Raman Atom Interferometer

Biao Tang; Fen Gao; Jiaqi Zhong; Jin Wang; Lin Zhou; Mingsheng Zhan; Shitong Long; Weitao Duan; Wencui Peng; Xi Chen

arxiv: 1503.00401 · v1 · pith:VLW47FCSnew · submitted 2015-03-02 · ⚛️ physics.atom-ph · gr-qc

Test of Equivalence Principle at 10⁻⁸ Level by a Dual-species Double-diffraction Raman Atom Interferometer

Lin Zhou , Shitong Long , Biao Tang , Xi Chen , Fen Gao , Wencui Peng , Weitao Duan , Jiaqi Zhong

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Zongyuan Xiong Jin Wang Yuanzhong Zhang Mingsheng Zhan

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classification ⚛️ physics.atom-ph gr-qc

keywords interferometerramanatomdouble-diffractiondual-speciesequivalenceprincipletest

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We report an improved test of the weak equivalence principle by using a simultaneous $^{85}$Rb-$^{87}$Rb dual-species atom interferometer. We propose and implement a four-wave double-diffraction Raman transition scheme for the interferometer, and demonstrate its ability in suppressing common-mode phase noise of Raman lasers after their frequencies and intensity ratios are optimized. The statistical uncertainty of the experimental data for E\"{o}tv\"{o}s parameter $\eta$ is $0.8\times10^{-8}$ at 3200 s. With various systematic errors corrected the final value is $\eta=(2.8\pm3.0)\times10^{-8}$. The major uncertainty is attributed to the Coriolis effect.

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Test of Equivalence Principle at 10⁻⁸ Level by a Dual-species Double-diffraction Raman Atom Interferometer

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