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Position and state control of single atoms using optical tweezers

EQEC '05. European Quantum Electronics Conference, 2005. Pub Date : 2005-06-12 DOI:10.1109/EQEC.2005.1567477
W. Alt, I. Dotsenko, L. Forster, M. Khudaverdyan, Y. Miroshnychenko, D. Schrader, A. Rausehenbeutel, D. Meschede
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Abstract

A small known number of cesium atoms is loaded from a magneto-optical trap into a far detuned, standing wave optical dipole trap. This trap is made of two counter-propagating Nd:YAG laser beams (/spl lambda/= 1064 nm) which give rise to a chain of potential wells with a depth of about 1 mK and an axial spacing of 532 nm. By fitting the axial intensity distribution with a Gaussian function, the positions of the individual atoms are determined automatically with a precision of 100 nm rms, mainly limited by photon statistics.
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用光镊控制单原子的位置和状态
少量已知数量的铯原子从磁光阱装入远失谐的驻波光偶极子阱。该陷阱由两个反向传播的Nd:YAG激光束(/spl λ /= 1064 nm)组成,产生深度约为1 mK,轴向间距为532 nm的势阱链。通过用高斯函数拟合轴向强度分布,自动确定单个原子的位置,精度为100nm rms,主要受光子统计的限制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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EQEC '05. European Quantum Electronics Conference, 2005.
EQEC '05. European Quantum Electronics Conference, 2005.
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