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Displacement calibration of optical tweezers with absolute gravitational acceleration

In recent years, levitated particles of optical traps in vacuum have shown enormous potential in precision sensor development and searching for new physics. The accuracy of the calibration relating the detected signal to absolute displacement of the trapped particle is a critical factor for absolute measurement performance. In this paper, we suggest and experimentally demonstrate a novel calibration method for optical tweezers based on free-falling particles in vacuum, where the gravitational acceleration is introduced as an absolute reference. Our work provides a calibration protocol with great certainty and traceability, which is significant in improving the accuracy of precision sensing based on optically levitated particles.

preprint2022arXivOpen access
Jianyu YangNan LiXunmin ZhuMing ChenXingfan ChenCheng LiuJian ZhuangHuizhu Hu
physics.ins-detphysics.optics
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Open access8 authors2 topics
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Jianyu YangNan LiXunmin ZhuMing ChenXingfan ChenCheng LiuJian ZhuangHuizhu Hu

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