紧凑的室温俘获离子系统的真空特性

arXiv: Atomic Physics Pub Date : 2020-07-15 DOI:10.1063/5.0029236

Yuhi Aikyo, Geert Vrijsen, T. Noel, A. Kato, M. Ivory, Jungsang Kim

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引用次数: 5

摘要

我们提出了一种用于量子计算的紧凑型室温俘获离子系统的设计和真空性能，该系统由超高真空(UHV)封装、微制造表面阱和小尺寸离子泵组成。该系统旨在通过最小化系统尺寸和重量来最大限度地提高机械稳定性和坚固性。UHV封装的内部体积仅为2 cm³，与捕获离子实验中使用的传统真空室相比，这是一个显着的减少。我们证明了该系统中$^{174}$Yb$^+$离子的捕获，并通过监测双阱电位中的离子跳变速率和离子链重排序事件来表征特高压封装中的真空水平。该真空封装的计算压力约为1.5e-11 Torr，足以满足大多数电流捕获离子实验。

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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Vacuum characterization of a compact room-temperature trapped ion system

We present the design and vacuum performance of a compact room-temperature trapped ion system for quantum computing, consisting of a ultra-high vacuum (UHV) package, a micro-fabricated surface trap and a small form-factor ion pump. The system is designed to maximize mechanical stability and robustness by minimizing the system size and weight. The internal volume of the UHV package is only 2 cm$^3$, a significant reduction in comparison with conventional vacuum chambers used in trapped ion experiments. We demonstrate trapping of $^{174}$Yb$^+$ ions in this system and characterize the vacuum level in the UHV package by monitoring both the rates of ion hopping in a double-well potential and ion chain reordering events. The calculated pressure in this vacuum package is about 1.5e-11 Torr, which is sufficient for the majority of current trapped ion experiments.

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arXiv: Atomic Physics

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