Light-induced atomic desorption for loading a sodium magneto-optical trap

Gustavo Telles; Tetsuya Ishikawa; Matthew Gibbs; Chandra Raman

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Light-induced atomic desorption for loading a sodium magneto-optical trap

机译：光诱导原子解吸以装载钠磁光阱

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We report studies of photon-stimulated desorption, also known as light-induced atomic desorption, of sodium atoms from a vacuum-cell glass surface used for loading a magneto-optical trap (MOT). Fluorescence detection was used to record the trapped atom number and the desorption rate. We observed a steep wavelength dependence of the desorption process above 2.6 eV photon energy, a result significant for estimations of sodium vapor density in the lunar atmosphere. Our data fit well to a simple model for the loading of the MOT dependent only on the sodium desorption rate and residual gas density. Up to 3.7 x 10~7 Na atoms were confined under ultrahigh-vacuum conditions, creating promising loading conditions for a vapor-cell-based atomic Bose-Einstein condensate of sodium.

机译：我们报告了光子激发的解吸（也称为光诱导的原子解吸）从用于装载磁光阱（MOT）的真空池玻璃表面的钠原子的研究。荧光检测用于记录捕获的原子数和解吸速率。我们观察到解吸过程在2.6 eV光子能量以上具有陡峭的波长依赖性，这对于估算月球大气中的钠蒸气密度具有重要意义。我们的数据非常适合简单的模型，该模型仅依赖于钠的解吸速率和残余气体密度来吸附MOT。在超高真空条件下，最多可限制3.7 x 10〜7个Na原子，从而为基于蒸汽细胞的钠原子玻色-爱因斯坦缩合物创造了有希望的负载条件。

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《Physical Review, A. Atomic, molecular, and optical physics》 |2010年第1期|共5页
作者
Gustavo Telles; Tetsuya Ishikawa; Matthew Gibbs; Chandra Raman;
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正文语种 eng
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Light-induced; desorption; magneto-optical trap;

机译：光诱导;解吸;磁光阱;

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1. Light-induced atomic desorption for loading a sodium magneto-optical trap [J] . Gustavo Telles, Tetsuya Ishikawa, Matthew Gibbs, Physical Review, A. Atomic, molecular, and optical physics . 2010,第3aPta1期

机译：光诱导原子解吸以装载钠磁光阱
2. Fast and efficient loading of a Rb magneto-optical trap using light-induced atomic desorption - art. no. 053401 [J] . Atutov SN., Calabrese R., Guidi V., Physical Review, A. Atomic, molecular, and optical physics . 2003,第5期

机译：利用光诱导原子解吸快速有效地加载Rb磁光阱-艺术。没有。 053401
3. Light-induced atom desorption for cesium loading of a magneto-optical trap: Analysis and experimental investigations [J] . Pengfei Zhang, Gang Li, Yu-chi Zhang, Physical Review, A. Atomic, molecular, and optical physics . 2009,第5aPta2期

机译：光致原子解吸用于磁光阱铯负载的分析和实验研究
4. Light-induced atomic desorption for miniaturization of magneto-optical sensors [C] . S. Gateva, M. Taslakov, V. Sarova, International school on quantum electronics . 2013

机译：光致原子解吸，用于磁光传感器的小型化
5. Investigations of the ground-state hyperfine atomic structure and beta decay measurement prospects of sodium-21 with improved laser trapping techniques. [D] . Rowe, Mary Anderson. 1999

机译：用改进的激光俘获技术研究钠21的基态超精细原子结构和β衰变测量前景。
6. Light-induced atomic desorption in a compact system for ultracold atoms [O] . Lara Torralbo-Campo, Graham D. Bruce, Giuseppe Smirne, -1

机译：光致原子在紧凑系统中解吸超冷原子
7. Light-Induced Atomic Desorption for loading a Sodium Magneto-Optical Trap [O] . Telles, Gustavo, Ishikawa, Tetsuya, Gibbs, Matthew, 2010

机译：光诱导原子解吸加载钠磁光学元件陷阱

Light-induced atomic desorption for loading a sodium magneto-optical trap

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