A CubeSat platform for space based quantum key distribution

2022 IEEE International Conference on Space Optical Systems and Applications (ICSOS) Pub Date : 2022-03-28 DOI:10.1109/ICSOS53063.2022.9749724

S. Sivasankaran, Clarence Liu, Moritz Mihm, A. Ling

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引用次数: 4

Abstract

Satellite nodes are an enabler of global quantum networks by overcoming the distance limitations of fiber and free-space links on ground. The design of quantum sources and receivers for satellites, however, is challenging in terms of size, weight, and power consumption, as well as mechanical and thermal stability. This is all the more true for cost-efficient nanosatellites such as the popular CubeSat platform standard. Here we report on the follow-up mission of SpooQy-1, a 3U CubeSat that successfully demonstrated the generation of polarization-entangled photons in orbit. The next iteration of the mission will showcase satellite-to-ground quantum key distribution based on a compact source of polarization-entangled photon-pairs, and we have recently completed the integration of a fully functional demonstrator as a milestone towards the flight model. We also briefly describe the design of the optical ground station that we are currently building in Singapore for receiving the quantum signal. We present the most important subsystems and illustrate the concept of operation.

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用于空间量子密钥分发的立方体卫星平台

卫星节点通过克服地面光纤和自由空间链路的距离限制，成为全球量子网络的推动者。然而，用于卫星的量子源和接收器的设计在尺寸、重量、功耗以及机械和热稳定性方面都具有挑战性。对于成本效益高的纳米卫星，如流行的立方体卫星平台标准，更是如此。在这里，我们报告了spooky -1的后续任务，这是一颗3U立方体卫星，成功地演示了在轨道上产生偏振纠缠光子。该任务的下一次迭代将展示基于紧凑型偏振纠缠光子对源的卫星到地面量子密钥分配，我们最近完成了一个全功能演示器的集成，作为飞行模型的里程碑。我们还简要介绍了我们目前在新加坡建造的用于接收量子信号的光学地面站的设计。我们介绍了最重要的子系统，并说明了操作的概念。

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2022 IEEE International Conference on Space Optical Systems and Applications (ICSOS)

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