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Raman pulse duration effect in gravity gradiometers composed of two atom interferometers

We investigated the Raman pulse duration effect in a gravity gradiometer with two atom interferometers. Since the two atom clouds in the gradiometer experience different gravitational fields, it is hard to compensate the Doppler shifts of the two clouds simultaneously by chirping the frequency of a common Raman laser, which leads to an appreciable phase shift. When applied to an experiment measuring the Newtonian gravitational constant G, the effect contributes to a systematic offset as large as -49ppm in Nature 510, 518 (2014). Thus an underestimated value of G measured by atom interferometers can be partly explained due to this effect.

preprint2015arXivOpen access
Cheng-Gang ShaoDe-Kai MaoMin-Kang ZhouYu-Jie TanLe-Le ChenJun LuoZhong Kun-Hu
physics.atom-ph
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Cheng-Gang ShaoDe-Kai MaoMin-Kang ZhouYu-Jie TanLe-Le ChenJun LuoZhong Kun-Hu

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