Abstract
A ()-threshold secret-sharing scheme allows for a string to be split into shares in such a way that any subset of at least shares suffices to recover the secret string, but such that any subset of at most shares contains no information about the secret. Quantum secret-sharing schemes extend this idea to the sharing of quantum states. Here we propose a method of performing computation securely on quantum shared secrets. We introduce a ()-quantum secret sharing scheme together with a set of algorithms that allow quantum circuits to be evaluated securely on the shared secret without the need to decode the secret. We consider a multipartite setting, with each participant holding a share of the secret. We show that if there exists at least one honest participant, no group of dishonest participants can recover any information about the shared secret, independent of their deviations from the algorithm.
- Received 17 May 2017
DOI:https://doi.org/10.1103/PhysRevA.96.052333
©2017 American Physical Society