用于类碱土元素的低功耗微结构原子炉

arXiv - PHYS - Atomic Physics Pub Date : 2024-08-22 DOI:arxiv-2408.12471

Julian Pick, Julia Voß, Simon Hirt, Jens Kruse, Tobias Leopold, Roman Schwarz, Carsten Klempt

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引用次数: 0

摘要

碱土类元素在先进的量子传感技术（尤其是光学时钟）中发挥着举足轻重的作用。尽管取得了令人瞩目的进展，但目前的光学晶格时钟在满足太空应用所必需的苛刻尺寸、重量和功耗限制方面仍然面临挑战。传统的原子源，如烤箱或分配器，需要大量的加热功率，占系统总功耗的很大一部分。为了应对这一挑战，我们提出了一种基于熔融石英的新型微结构原子烤箱，旨在实现小型化和低功耗运行。我们通过在磁光阱中装入从烤箱中蒸发出来的镱来描述烤箱的特性，并演示了在加热功率低于 250 美元/mathrm{mW}的情况下，以高于 10^8 美元/mathrm{atoms}/\mathrm{s}美元的装载率运行。

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A low-power microstructured atomic oven for alkaline-earth-like elements

Alkaline-earth-like elements play pivotal roles in advanced quantum sensing technologies, notably optical clocks, with unprecedented precision achieved in recent years. Despite remarkable progress, current optical lattice clocks still face challenges in meeting the demanding size, weight, and power consumption constraints essential for space applications. Conventional atom sources, such as ovens or dispensers, require substantial heating power, making up a significant fraction of the system's overall power consumption. Addressing this challenge, we present a novel microstructured atomic oven based on fused silica, designed for miniaturization and low-power operation. We characterize the oven by loading a magneto-optical trap with Yb evaporated from the oven and demonstrate operation with a loading rate above $10^8$ $\mathrm{atoms}/\mathrm{s}$ for heating powers below $250$ $\mathrm{mW}$.

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arXiv - PHYS - Atomic Physics

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