集成光子QCCD器件中的多区阱离子量子比特控制

IF 11.6 1区物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY

Physical Review X Pub Date : 2025-02-24 DOI:10.1103/physrevx.15.011040

Carmelo Mordini, Alfredo Ricci Vasquez, Yuto Motohashi, Mose Müller, Maciej Malinowski, Chi Zhang, Karan K. Mehta, Daniel Kienzler, Jonathan P. Home

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引用次数: 0

摘要

多路操作和对多个捕获点的扩展相干控制是大规模体系结构中捕获离子处理器的基本要求。在这里，我们使用具有集成光子元件的表面电极陷阱来演示这些构建块，该陷阱可扩展到更大数量的区域。我们在两个间隔375μm的区域使用集成光实现了Ramsey序列，在脉冲间隔200 μs内实现了离子从一个区域到另一个区域的传输。为了在传输过程中实现低运动激发，我们开发了测量和减轻用于向离子传递集成光的暴露电介质表面影响的技术。我们还演示了在低光串扰的不同区域同时控制两个离子，并使用它来执行同步光谱来关联两个位置之间的场噪声。我们的工作展示了集成光子离子阱系统中的第一个传输和相干多区操作，为进一步扩展捕获离子量子电荷耦合器件架构奠定了基础。2025年由美国物理学会出版

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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Multizone Trapped-Ion Qubit Control in an Integrated Photonics QCCD Device

Multiplexed operations and extended coherent control over multiple trapping sites are fundamental requirements for a trapped-ion processor in a large-scale architecture. Here, we demonstrate these building blocks using a surface-electrode trap with integrated photonic components which are scalable to larger numbers of zones. We implement a Ramsey sequence using the integrated light in two zones, separated by 375μm, performing transport of the ion from one zone to the other in 200 μs between pulses. In order to achieve low motional excitation during transport, we develop techniques to measure and mitigate the effect of the exposed dielectric surfaces used to deliver the integrated light to the ion. We also demonstrate simultaneous control of two ions in separate zones with low optical crosstalk and use this to perform simultaneous spectroscopy to correlate field noise between the two sites. Our work demonstrates the first transport and coherent multizone operations in integrated photonic ion trap systems, forming the basis for further scaling in the trapped-ion quantum charge-coupled device architecture.

Published by the American Physical Society

2025

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来源期刊

Physical Review X PHYSICS, MULTIDISCIPLINARY-

CiteScore

24.60

自引率

1.60%

发文量

197

审稿时长

3 months

期刊介绍： Physical Review X (PRX) stands as an exclusively online, fully open-access journal, emphasizing innovation, quality, and enduring impact in the scientific content it disseminates. Devoted to showcasing a curated selection of papers from pure, applied, and interdisciplinary physics, PRX aims to feature work with the potential to shape current and future research while leaving a lasting and profound impact in their respective fields. Encompassing the entire spectrum of physics subject areas, PRX places a special focus on groundbreaking interdisciplinary research with broad-reaching influence.