Comparison of two multiplexed portable cold-atom vacuum standards

IF 4.2 Q2 QUANTUM SCIENCE & TECHNOLOGY AVS quantum science Pub Date : 2022-04-07 DOI:10.1116/5.0095011
L. Ehinger, B. Acharya, D. Barker, J. Fedchak, J. Scherschligt, E. Tiesinga, S. Eckel
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引用次数: 6

Abstract

We compare the vacuum measured by two portable cold-atom vacuum standards (pCAVSs) based on ultracold 7Li atoms. pCAVSs are quantum-based standards that use a priori scattering calculations to convert a measured loss rate of cold atoms from a conservative trap into a background gas pressure. Our pCAVS devices share the same laser system and measure the vacuum concurrently. The two pCAVSs together detected a leak with a rate on the order of [Formula: see text] Pa l/s. After fixing the leak, the pCAVS measured pressure of about 40 nPa with 2.6% uncertainty. The two pCAVSs agree within their uncertainties, even when swapping some of their component parts. Operation of the pCAVS was found to cause some additional outgassing, on the order of [Formula: see text] Pa l/s, which can be mitigated in the future by better thermal management.
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两种多路便携式冷原子真空标准的比较
我们比较了两种基于超冷7Li原子的便携式冷原子真空标准(pcavs)测量的真空。pcavs是基于量子的标准,它使用先验散射计算将测量到的冷原子损失率从保守阱转换为背景气体压力。我们的pCAVS设备共享同一个激光系统,并同时测量真空。两个pcav一起检测到泄漏,其速率为[公式:见文本]Pa l/s。修复泄漏后,pCAVS测量的压力约为40 nPa,不确定度为2.6%。这两个pcav在它们的不确定性范围内是一致的,即使在交换它们的一些组成部分时也是如此。研究发现,pavs的运行会导致一些额外的排气,排气量约为Pa l/s,未来可以通过更好的热管理来缓解。
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CiteScore
9.90
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