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Phase-tuned entangled state generation between distant spin qubits

机译：自旋量子位之间的相位调谐纠缠态生成

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Entanglement between distant nodes is essential for the successful realisation of a distributed quantum network. Photon-mediated entanglement has recently been demonstrated in atomic [1] and diamond defect systems [2] and, very recently, using heavy hole spins in quantum dots [3]. However, until now controlled creation of entangled states with arbitrary phase had yet to be demonstrated in these systems. Here we demonstrate the high frequency creation of Bell states with arbitrary phase using electron-spin qubits confined to distant self-assembled InGaAs quantum dots (QD).

机译：远程节点之间的纠缠对于成功实现分布式量子网络至关重要。最近，在原子[1]和金刚石缺陷系统[2]中已经证明了光子介导的纠缠，最近，在量子点中使用了重空穴自旋[3]。然而，直到现在，在这些系统中还没有证明有控制地创建具有任意相位的纠缠态。在这里，我们演示了使用限制在遥远的自组装InGaAs量子点（QD）上的电子自旋量子位，以任意相位高频生成Bell状态。

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来源
《Conference on Lasers and Electro-Optics Europe;European Quantum Electronics Conference 》|2017年|1-1|共1页
会议地点 Munich(DE)
作者
Robert Stockill; Megan Stanley; Lukas Huthmacher; Claire Le Gall; Aaron Miller; Edmund Clarke; Maxime Hugues; Clemens Matthiesen; Mete Atatüre;
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作者单位

Cavendish Laboratory University of Cambridge JJ Thomson Avenue Cambridge CB3 0HE UK;

Quantum Opus 42511 Helm St. Plymouth MI 48170 USA;

EPSRC National Centre for III-V Technologies University of Sheffield Sheffield S1 3JD UK;

CNRS-CRHEA rue Bernard Grégory Valbonne 06560 France;

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Quantum entanglement; Photonics; Optical interferometry; Correlation; Quantum dots; Stimulated emission; Mach-Zehnder interferometers;

机译：量子纠缠；光子学;光学干涉仪；相关性量子点;受激发射；马赫曾德尔干涉仪;

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专利

1. Phase-Tuned Entangled State Generation between Distant Spin Qubits [J] . Stockill R., Stanley M. J., Huthmacher L., Physical review letters . 2017 ,第1期

机译：自旋量子位之间的相位调整纠缠态生成
2. Phase-Tuned Entangled State Generation between Distant Spin Qubits [J] . Stockill R., Stanley M. J., Huthmacher L., Physical review letters . 2017 ,第1a8CD期

机译：遥感旋转Qubits之间的相位调谐纠缠状态
3. APS -APS March Meeting 2017 - Event - Phase-tuned entangled state generation between distant spin qubits [J] . Robert Stockill, Megan Stanley, Lukas Huthmacher, Bulletin of the American Physical Society . 2017 ,第4期

机译：APS -APS 2017年3月会议-事件-遥距自旋量子位之间的相位调谐纠缠状态生成
4. Phase-tuned entangled state generation between distant spin qubits [C] . Robert Stockill, Megan Stanley, Lukas Huthmacher, Conference on Lasers and Electro-Optics Europe . 2017

机译：遥感旋转Qubits之间的相位调谐纠缠状态
5. Polarization Sensitive Imaging Techniques Using Quantum Entangled Qubits [D] . Sukharenko, Vitaly. 2021

机译：使用量子纠缠Qubits的偏振敏感成像技术
6. Posner qubits: spin dynamics of entangled Ca9(PO4)6 molecules and their role in neural processing [O] . Thomas C. Player, P. J. Hore 2018

机译：波斯纳量子位：纠缠的Ca9（PO4）6分子的自旋动力学及其在神经加工中的作用
7. Phase-Tuned Entangled State Generation between Distant Spin Qubits [O] . Stockill R., Stanley M.J., Huthmacher L., 2017

机译：远程自旋量子点之间的相位调谐纠缠态生成

Phase-tuned entangled state generation between distant spin qubits

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