Necessary and Sufficient Criteria for Gaussian Quantum Teleportation

Abstract

Quantum teleportation (QT) serves as one of the building blocks of the current state information science and technology which necessitates proper characterization of the resources yielding QT. While entanglement is known to be the basic requirement to achieve QT, condition of sufficiency for QT still remains an open question. Here, we provide an analytic proof that in the case of Gaussian entangled resources, in general, Einstein-Podolsky-Rosen (EPR) correlation is sufficient for QT. For a relatively restricted set of Gaussian states we provide even a tighter condition that EPR correlation is both necessary and sufficient for QT. Our results, in turn, provide a complete characterization of the resources required for QT.