A source of entangled photons based on a cavity-enhanced and strain-tuned GaAs quantum dot

IF 27.2 Q1 OPTICS eLight Pub Date : 2024-07-24 DOI:10.1186/s43593-024-00072-8
Michele B. Rota, Tobias M. Krieger, Quirin Buchinger, Mattia Beccaceci, Julia Neuwirth, Hêlio Huet, Nikola Horová, Gabriele Lovicu, Giuseppe Ronco, Saimon F. Covre da Silva, Giorgio Pettinari, Magdalena Moczała-Dusanowska, Christoph Kohlberger, Santanu Manna, Sandra Stroj, Julia Freund, Xueyong Yuan, Christian Schneider, Miroslav Ježek, Sven Höfling, Francesco Basso Basset, Tobias Huber-Loyola, Armando Rastelli, Rinaldo Trotta
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Abstract

A quantum-light source that delivers photons with a high brightness and a high degree of entanglement is fundamental for the development of efficient entanglement-based quantum-key distribution systems. Among all possible candidates, epitaxial quantum dots are currently emerging as one of the brightest sources of highly entangled photons. However, the optimization of both brightness and entanglement currently requires different technologies that are difficult to combine in a scalable manner. In this work, we overcome this challenge by developing a novel device consisting of a quantum dot embedded in a circular Bragg resonator, in turn, integrated onto a micromachined piezoelectric actuator. The resonator engineers the light-matter interaction to empower extraction efficiencies up to 0.69(4). Simultaneously, the actuator manipulates strain fields that tune the quantum dot for the generation of entangled photons with corrected fidelities to a maximally entangled state up to 0.96(1). This hybrid technology has the potential to overcome the limitations of the key rates that plague QD-based entangled sources for entanglement-based quantum key distribution and entanglement-based quantum networks.

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基于腔增强和应变调谐砷化镓量子点的纠缠光子源
能提供高亮度和高纠缠度光子的量子光源是开发基于纠缠的高效量子密钥分发系统的基础。在所有可能的候选光源中,外延量子点是目前最亮的高纠缠光子源之一。然而,亮度和纠缠的优化目前需要不同的技术,而这些技术很难以可扩展的方式结合在一起。在这项工作中,我们通过开发一种新型装置来克服这一挑战,该装置由一个嵌入圆形布拉格共振器的量子点组成,而圆形布拉格共振器又集成在一个微机械压电致动器上。该谐振器可实现光物质相互作用,使提取效率高达 0.69(4)。与此同时,致动器操纵应变场,调整量子点以产生纠缠光子,其校正保真度最高可达 0.96(1)。这种混合技术有望克服困扰基于量子点的纠缠源在基于纠缠的量子密钥分发和基于纠缠的量子网络中的密钥率限制。
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CiteScore
30.40
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