Responsive Operations for Key Services (ROKS) : A Modular, Low SWaP Quantum Communications Payload

Colquhoun, Craig D. and Jeffrey, Hazel and Greenland, Steve and Mohapatra, Sonali and Aitken, Colin and Cebecauer, Mikulas and Crawshaw, Charlotte and Jeffrey, Kenny and Jeffreys, Toby and Karagiannakis, Philippos and McTaggart, Ahren and Stark, Caitlin and Wood, Jack and Joshi, Siddarth K. and Sagar, Jaya and Hastings, Elliott and Zhang, Peide and Stefko, Milan and Lowndes, David and Rarity, John G. and Sidhu, Jasminder S. and Brougham, Thomas and McArthur, Duncan and Pousa, Robert G. and Oi, Daniel K. L. and Warden, Matthew and Johnston, Eilidh and Leck, John; (2022) Responsive Operations for Key Services (ROKS) : A Modular, Low SWaP Quantum Communications Payload. In: Proceedings of the AIAA/USU Conference on Small Satellites 2022. Utah State University Libraries, Logan, UT..

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Abstract

Quantum key distribution (QKD) is a theoretically proven future-proof secure encryption method that inherits its security from fundamental physical principles. Craft Prospect, working with a number of UK organisations, has been focused on miniaturising the technologies that enable QKD so that they may be used in smaller platforms including nanosatellites. The significant reduction of size, and therefore the cost of launching quantum communication technologies either on a dedicated platform or hosted as part of a larger optical communications will improve potential access to quantum encryption on a relatively quick timescale. The ROKS mission seeks to be among the first to send a QKD payload on a CubeSat into low Earth orbit, demonstrating the capabilities of newly developed modular quantum technologies. The ROKS payload comprises a quantum source module that supplies photons randomly in any of four linear polarisation states fed from a quantum random number generator; an acquisition, pointing, and tracking system to fine-tune alignment of the quantum source beam with an optical ground station; an imager that will detect cloud cover autonomously; and an onboard computer that controls and monitors the other modules, which manages the payload and assures the overall performance and security of the system. Each of these modules have been developed with low SWaP for CubeSats, but with interoperability in mind for other satellite form factors. We present each of the listed components, together with the initial test results from our test bench and the performance of our protoflight models prior to initial integration with the 6U CubeSat platform systems. The completed ROKS payload will be ready for flight at the end of 2022, with various modular components already being baselined for flight and integrated into third party communication missions.

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