Relativistic (2,3)-threshold quantum secret sharing

Mehdi Ahmadi, Ya-Dong Wu, Barry C. Sanders
2017 Physical Review D  
In quantum secret sharing protocols, the usual presumption is that the distribution of quantum shares and players' collaboration are both performed inertially. Here we develop a quantum secret sharing protocol that relaxes these assumptions wherein we consider the effects due to the accelerating motion of the shares. Specifically, we solve the (2,3)-threshold continuous-variable quantum secret sharing in non-inertial frames. To this aim, we formulate the effect of relativistic motion on the
more » ... tum field inside a cavity as a bosonic quantum Gaussian channel. We investigate how the fidelity of quantum secret sharing is affected by non-uniform motion of the quantum shares. Furthermore, we fully characterize the canonical form of the Gaussian channel which can be utilized in quantum information processing protocols to include relativistic effects.
doi:10.1103/physrevd.96.065018 fatcat:62q55ayf5vc6lbbuzzcx4ds3ym