Agile quantum communication: signatures and secrets.
Please check it out here:
https://arxiv.org/abs/2001.10089

A joint effort between the Max-Planck-Institute and the University of St Andrews.

Abstract:

Agile cryptography allows for a resource-efficient swap of a cryptographic core in case the security of an underlying classical cryptographic algorithm becomes compromised. In this paper, we suggest how this principle can be applied to the field of quantum cryptography. We explicitly demonstrate two quantum cryptographic protocols: quantum digital signatures (QDS) and quantum secret sharing (QSS), on the same hardware sender and receiver platform, with protocols only differing in their classical post-processing. The system is also suitable for quantum key distribution (QKD) and is highly compatible with deployed telecommunication infrastructures, since it uses standard quadrature phase shift keying (QPSK) encoding and heterodyne detection. For the first time, QDS protocols are modified to allow for postselection at the receiver, enhancing protocol performance. The cryptographic primitives QDS and QSS are inherently multipartite and we prove that they are secure not only when a player internal to the task is dishonest, but also when (external) eavesdropping on the quantum channel is allowed. In the first proof-of-principle demonstration of an agile quantum communication system, the quantum states were distributed at GHz rates. This allows for a one-bit message to be securely signed using our QDS protocols in less than 0.05~ms over a 2~km fiber link and in less than 0.2 s over a 20 km fiber link. To our knowledge, this also marks the first demonstration of a continuous-variable direct QSS protocol.