积分和缩放：光谱可分离光子对的来源

IF 8.4 1区物理与天体物理 Q1 OPTICS

Optica Pub Date : 2023-11-06 DOI:10.1364/optica.491965

Ben M. Burridge, Imad I. Faruque, John G. Rarity, and Jorge Barreto

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引用次数: 0

摘要

集成光子学是容错量子计算机竞赛中的有力竞争者，声称它是一个能够扩展到必要数量量子位的平台。这就需要使用高质量的量子态，我们在这里使用集成光子学平台上的全方位高性能光子源来创建量子态。我们使用光子分子结构和宽带定向耦合器来防止制造公差，并确保可靠的操作。结果，我们同时测量到光谱纯度为99.1\pm 0.1\%99.1\pm 0.1%，对生成率为4.4\pm 0.1\%；｛\rm-MHz｝\，｛\rm-mW｝^｛-2｝｝4.4\pm 0.1\；｛\rm-MHz｝\，｛\rm-mW｝^｛-2｝｝，以及94.0\pm 2.9\%94.0\pm 2.9%的固有源。我们还看到了1644\pm 2631644\ pm 263的最大重合与偶然比。我们声称，在光源预示效率、纯度和亮度之间的三变量权衡中，提高了一个数量级以上。该源的未来实现可以实现超过99%的纯度，并使用报告的最低传播损耗来预测效率。

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Integrate and scale: a source of spectrally separable photon pairs

Integrated photonics is a powerful contender in the race for a fault-tolerant quantum computer, claiming to be a platform capable of scaling to the necessary number of qubits. This necessitates the use of high-quality quantum states, which we create here using an all-around high-performing photon source on an integrated photonics platform. We use a photonic molecule architecture and broadband directional couplers to protect against fabrication tolerances and ensure reliable operation. As a result, we simultaneously measure a spectral purity of 99.1 \pm 0.1\% $99.1 \pm 0.1\%$ , a pair generation rate of 4.4 \pm 0.1\;{\rm MHz}\,{{\rm mW}^{- 2}} $4.4 \pm 0.1\;{\rm MHz}\,{{\rm mW}^{- 2}}$ , and an intrinsic source heralding efficiency of 94.0 \pm 2.9\% $94.0 \pm 2.9\%$ . We also see a maximum coincidence-to-accidental ratio of 1644 \pm 263 $1644 \pm 263$ . We claim over an order of magnitude improvement in the trivariate trade-off among source heralding efficiency, purity, and brightness. Future implementations of the source could achieve in excess of 99% purity and heralding efficiency using the lowest reported propagation losses.

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来源期刊

Optica OPTICS-

CiteScore

19.70

自引率

2.90%

发文量

191

审稿时长

2 months

期刊介绍： Optica is an open access, online-only journal published monthly by Optica Publishing Group. It is dedicated to the rapid dissemination of high-impact peer-reviewed research in the field of optics and photonics. The journal provides a forum for theoretical or experimental, fundamental or applied research to be swiftly accessed by the international community. Optica is abstracted and indexed in Chemical Abstracts Service, Current Contents/Physical, Chemical & Earth Sciences, and Science Citation Index Expanded.