Design and test of optical payload for polarization encoded QKD for nanosatellites

Jaya Sagar, Elliott Hastings, Piede Zhang, Milan Stefko, David Lowndes, Daniel Oi, John Rarity, Siddarth K. Joshi

Research output: Chapter in Book/Report/Conference proceedingConference contribution book

3 Citations (Scopus)
31 Downloads (Pure)

Abstract

Satellite based Quantum Key Distribution (QKD) in Low Earth Orbit (LEO) is currently the only viable technology to span thousands of kilometres. Since the typical overhead pass of a satellite lasts for a few minutes, it is crucial to increase the the signal rate to maximise the secret key length. For the QUARC CubeSat mission due to be launched within two years, we are designing a dual wavelength, weak-coherent-pulse decoy-state Bennett-Brassard '84 (WCP DS BB84) QKD source. The optical payload is designed in a $12{\times}9{\times}5 cm^3$ bespoke aluminium casing. The Discrete Variable QKD Source consists of two symmetric sources operating at 785 nm and 808 nm. The laser diodes are fixed to produce Horizontal,Vertical, Diagonal, and Anti-diagonal (H,V,D,A) polarisation respectively, which are combined and attenuated to a mean photon number of 0.3 and 0.5 photons/pulse. We ensure that the source is secure against most side channel attacks by spatially mode filtering the output beam and characterising their spectral and temporal characterstics. The extinction ratio of the source contributes to the intrinsic Qubit Error Rate(QBER) with $0.817 \pm 0.001\%$. This source operates at 200MHz, which is enough to provide secure key rates of a few kilo bits per second despite 40 dB of estimated loss in the free space channel
Original languageEnglish
Title of host publicationProceedings Volume 12335, Quantum Technology : Driving Commercialisation of an Enabling Science III
EditorsMiles J. Padgett, Kai Bongs, Alessandro Fedrizzi, Alberto Politi
Place of PublicationBellingham, Washington
DOIs
Publication statusPublished - 11 Jan 2023

Keywords

  • satellite quantum key distribution
  • space optics
  • nanosatellites
  • quantum communication
  • BB84

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