Magneto-Optical Trap with Millimeter Ball Lenses

arXiv: Atomic Physics Pub Date : 2020-05-20 DOI:10.1103/PHYSREVAPPLIED.14.044013
C. S. Nichols, L. Nofs, M. Viray, Lu Ma, E. Paradis, G. Raithel
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引用次数: 3

Abstract

We present a magneto-optical trap (MOT) design based on millimeter ball lenses, contained within a metal cube of 0.75$^{\prime \prime}$ side length. We present evidence of trapping approximately $4.2\times 10^5$ of $^{85}$Rb atoms with a number density of $3.2\times 10^9$ atoms/cm$^{3}$ and a loading time of 1.3 s. Measurement and a kinetic laser-cooling model are used to characterize the atom trap design. The design provides several advantages over other types of MOTs: the laser power requirement is low, the small lens and cube sizes allow for miniaturization of MOT applications, and the lack of large-diameter optical beam pathways prevents external blackbody radiation from entering the trapping region.
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毫米球透镜磁光阱
我们提出了一种基于毫米球透镜的磁光阱(MOT)设计,该设计包含在边长为0.75$^{\prime \prime}$的金属立方体中。我们提供了捕获大约$4.2\乘以10^5$ $ $ $^{85}$Rb原子的证据,数量密度为$3.2\乘以10^9$ $原子/cm$ $^{3}$,加载时间为1.3 s。采用测量和动力学激光冷却模型来表征原子阱的设计。与其他类型的MOT相比,该设计具有几个优点:激光功率要求低,小透镜和立方体尺寸允许MOT应用的小型化,并且缺乏大直径的光束路径可以防止外部黑体辐射进入捕获区域。
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arXiv: Atomic Physics
arXiv: Atomic Physics
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