EPJ Quantum Technology (Apr 2018)

Q3Sat: quantum communications uplink to a 3U CubeSat—feasibility & design

  • Sebastian Philipp Neumann,
  • Siddarth Koduru Joshi,
  • Matthias Fink,
  • Thomas Scheidl,
  • Roland Blach,
  • Carsten Scharlemann,
  • Sameh Abouagaga,
  • Daanish Bambery,
  • Erik Kerstel,
  • Mathieu Barthelemy,
  • Rupert Ursin

DOI
https://doi.org/10.1140/epjqt/s40507-018-0068-1
Journal volume & issue
Vol. 5, no. 1
pp. 1 – 24

Abstract

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Abstract Satellites are the most efficient way to achieve global scale quantum communication (Q.Com) because unavoidable losses restrict fiber based Q.Com to a few hundred kilometers. We demonstrate the feasibility of establishing a Q.Com uplink with a 3U CubeSat, measuring only 10 × 10 × 34 cm3, using commercial off-the-shelf components, the majority of which have space heritage. We demonstrate how to leverage the latest advancements in nano-satellite body-pointing to show that our 4 kg CubeSat can generate a quantum-secure key, which has so far only been shown by a much larger 600 kg satellite mission. A comprehensive link budget and simulation was performed to calculate the secure key rates. We discuss design choices and trade-offs to maximize the key rate while minimizing the cost and development needed. Our detailed design and feasibility study can be readily used as a template for global scale Q.Com.

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