Realizing quantum nodes in space for cost-effective, global quantum communication: in-orbit results and next steps

Chithrabhanu Perumangatt; Tom Vergoossen; Alexander Lohrmann; Srihari Sivasankaran; Ayesha Reezwana; Ali Anwar; Subash Sachidananda; Tanvirul Islam; Alexander Ling

doi:10.1117/12.2583934

5 March 2021 Realizing quantum nodes in space for cost-effective, global quantum communication: in-orbit results and next steps

Chithrabhanu Perumangatt, Tom Vergoossen, Alexander Lohrmann, Srihari Sivasankaran, Ayesha Reezwana, Ali Anwar, Subash Sachidananda, Tanvirul Islam, Alexander Ling

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Proceedings Volume 11699, Quantum Computing, Communication, and Simulation; 1169904 (2021) https://doi.org/10.1117/12.2583934
Event: SPIE OPTO, 2021, Online Only

Abstract

Quantum sources and receivers operating on-board satellites are an essential building block for global quantum networks. SpooQy-1 is a satellite developed at the Centre for Quantum Technologies, which has successfully demonstrated the operation of an entangled photon pair source on a resource-constrained CubeSat platform. This miniaturized and ruggedized photon pair source is being upgraded to be capable of space-to-ground quantum key distribution and long-range entanglement distribution. In this paper, we share results from SpooQy-1, discuss their relevance for the engineering challenges of a small satellite quantum node, and report on the development of the new light source.

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Chithrabhanu Perumangatt, Tom Vergoossen, Alexander Lohrmann, Srihari Sivasankaran, Ayesha Reezwana, Ali Anwar, Subash Sachidananda, Tanvirul Islam, and Alexander Ling "Realizing quantum nodes in space for cost-effective, global quantum communication: in-orbit results and next steps", Proc. SPIE 11699, Quantum Computing, Communication, and Simulation, 1169904 (5 March 2021); https://doi.org/10.1117/12.2583934

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KEYWORDS

Quantum information

Satellites

Internet

Aerospace engineering

Quantum key distribution

Receivers

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