On the effect of "glancing" collisions in the cold atom vacuum standard

arXiv - PHYS - Atomic Physics Pub Date : 2024-09-17 DOI:arxiv-2409.11226

Stephen P. Eckel, Daniel S. Barker, James A. Fedchak, Jacek Kłos, Julia Scherschligt, Eite Tiesinga

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Abstract

We theoretically investigate the effect of ``glancing" collisions on the ultra-high vacuum (UHV) pressure readings of the cold atom vacuum standard (CAVS), based on either ultracold $^7$Li or $^{87}$Rb atoms. Here, glancing collisions are those collisions between ultracold atoms and room-temperature background atoms or molecules in the vacuum that do not impart enough kinetic energy to eject an ultracold atom from its trap. Our model is wholly probabilistic and shows that the number of the ultracold atoms remaining in the trap as a function of time is non-exponential. We update the recent results of a comparison between a traditional pressure standard -- a combined flowmeter and dynamic expansion system -- to the CAVS [D.S. Barker, et al., arXiv:2302.12143] to reflect the results of our model. We find that the effect of glancing collisions shifts the theoretical predictions of the total loss rate coefficients for $^7$Li colliding with noble gases or N$_2$ by up to $0.6$ %. Likewise, we find that in the limit of zero trap depth the experimentally extracted loss rate coefficients for $^{87}$Rb colliding with noble gases or N$_2$ shift by as much as 2.2 %.

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冷原子真空标准中 "闪烁 "碰撞的影响

我们从理论上研究了 "闪烁 "碰撞对冷原子真空标准（CAVS）超高真空（UHV）压力读数的影响，该标准基于超冷的 $^7$Li 或 $^{87}$Rb 原子。在这里，闪烁碰撞是指超冷原子与室温背景原子或分子在真空中发生的碰撞，这种碰撞不会产生足够的动能将超冷原子从阱中弹出。我们的模型是完全概率性的，它表明留在阱中的超冷原子数量与时间的函数关系是非指数的。我们更新了传统压力标准--流量计和动态膨胀系统的组合--与 CAVS 的最新比较结果[D.S. Barker 等，arXiv:2302.12143]，以反映我们模型的结果。我们发现，当 $^7$Li 与惰性气体或 N$_2$ 碰撞时，闪烁碰撞的影响会使总损耗率系数的理论预测值发生最大 0.6% 的偏移。同样，我们发现在阱深度为零的极限下，实验得出的^{87}$Rb与惰性气体或N$_2$碰撞的损耗率系数偏移高达2.2%。

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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arXiv - PHYS - Atomic Physics

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