Entanglement thresholds for displaying the quantum nature of teleportation

Abstract

A protocol for transferring an unknown single qubit state has quantum features when the average fidelity of the outcomes is greater than 2/3. We use the probabilistic and unambiguous state extraction scheme as a mechanism to redistribute the fidelity in the outcome of the teleportation when the process is performed with an X-state as a noisy quantum channel. We show that the entanglement of the channel is necessary but not sufficient in order for the total average fidelity fX to display quantum features, i.e., we find a threshold CX for the concurrence of the channel. If the mechanism for redistributing fidelity is successfully applied then we find a filtrable outcome with normalized average fidelity fX,USE,0 greater than fX. In addition, we find the threshold concurrence of the channel CX,USE,0 in order for the normalized average fidelity to display quantum features. Surprisingly, we find that the threshold concurrence CX,USE,0 can be lesser than CX. Finally, we show that if the mechanism for redistributing fidelity fails then the respective filtrable outcome has average fidelity lesser than 2/3.