重力仪
拉曼光谱
倾斜(摄像机)
原子干涉仪
物理
超冷原子
Atom(片上系统)
喷泉
调制(音乐)
光学
原子物理学
干涉测量
拉曼激光器
激光冷却
振动
标准差
原子光学
盎鲁效应
计算物理学
拉曼散射
激光器
梁(结构)
旋转(数学)
相干反斯托克斯拉曼光谱
频率调制
作者
Qin Luo,Hui-lin Zhou,Li Li,LeLe CHEN,Xiaochun Duan,ZhongKun HU,Minkang Zhou
摘要
The alignment of Raman beams is important for high-precision atom interferometry gravimeters, and tilt modulation experiments are usually carried out to calibrate the direction of Raman beams. However, the Coriolis effect could be changed during the tilt modulation experiment, thus introducing a deviation in the alignment of Raman beams. In this work, a method of rotating the sensor head by 90° to eliminate the impact of the Coriolis effect on Raman beams’ alignment in a fountain atom gravimeter was proposed and demonstrated experimentally. Using this method, the alignment uncertainty of the Raman beams in the atom gravimeter was reduced to 11 μrad, which contributed an uncertainty of less than 0.1 μGal (1 μGal = 1 × 10−8 m/s2) to the gravity measurement. Further simulations explained the experimental results and pointed out a way to reduce the Coriolis effect in atom gravimeters.
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