M Yaushev, D Mishin, D Tregubov, N Kolachevsky, A Golovizin
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引用次数: 0
摘要
我们报告了冷钛原子脉冲源的构建以及冷原子束对窄线磁光阱(MOT)的加载情况。我们实现了初级腔室中第一级 MOT 的装载率高达 108 个原子/秒,并以脉冲模式获得了平均纵向速度 ∼10 m/s、角展 18 mrad 的冷原子束。在这种情况下,我们可以以 5 Hz 的重复率形成一束含有多达 5 × 106 个原子的冷原子束。我们还引入了一种新方法,通过加入额外的轴向冷却光束来提高窄线 MOT 的捕获速度,并在科学室内实现第二级 MOT 的装载效率 η = 10%。我们的方法可以扩展到具有类似性质的其他原子种类,如锶,镱,镝和铒,作为传统二维 MOT 方案的便捷替代方案。在科学室中快速加载 MOT,可以减少原子集合的准备时间,从而缩短光谱实验的死区时间并提高重复率。
Loading of the narrow line Tm MOT from a pulsed cold atomic beam.
We report on building a pulsed source of cold Tm atoms and loading of the narrow-line magneto-optical trap (MOT) from the cold atomic beam. We achieve the loading rate of the first-stage MOT in the primary chamber up to 108 atoms/s and obtain a cold atomic beam with the mean longitudinal velocity ∼10 m/s and an angular spread of 18 mrad in a pulsed mode. In this regime, we can form a cold atomic beam with up to 5 × 106 atoms at a 5 Hz repetition rate. We also introduce a novel method to enhance the capture velocity of the narrow-line MOT by incorporating an additional axial cooling beam and achieve loading efficiency η = 10% of the second-stage MOT in the science chamber. Our approach could be extended to other atomic species with similar properties, such as Sr, Yb, Dy, and Er, serving as a convenient alternative for the traditional 2D-MOT schemes. Providing rapid loading of the MOT in the science chamber, it would reduce preparation time of the atomic ensemble leading to a shorter dead time in spectroscopy experiments and a higher repetition rate.
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Review of Scientific Instruments, is committed to the publication of advances in scientific instruments, apparatuses, and techniques. RSI seeks to meet the needs of engineers and scientists in physics, chemistry, and the life sciences.
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