npj Quantum Information (Mar 2022)

Practical quantum tokens without quantum memories and experimental tests

  • Adrian Kent,
  • David Lowndes,
  • Damián Pitalúa-García,
  • John Rarity

DOI
https://doi.org/10.1038/s41534-022-00524-4
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 14

Abstract

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Abstract Unforgeable quantum money tokens were the first invention of quantum information science, but remain technologically challenging as they require quantum memories and/or long-distance quantum communication. More recently, virtual “S-money” tokens were introduced. These are generated by quantum cryptography, do not require quantum memories or long-distance quantum communication, and yet in principle guarantee many of the security advantages of quantum money. Here, we describe implementations of S-money schemes with off-the-shelf quantum key distribution technology, and analyse security in the presence of noise, losses, and experimental imperfection. Our schemes satisfy near-instant validation without cross-checking. We show that, given standard assumptions in mistrustful quantum cryptographic implementations, unforgeability and user privacy could be guaranteed with attainable refinements of our off-the-shelf setup. We discuss the possibilities for unconditionally secure (assumption-free) implementations.