Teleportation of Accelerated Information

TL;DR

This paper proposes a quantum teleportation protocol for both accelerated and non-accelerated information, analyzing how entanglement and acceleration affect teleportation fidelity in different quantum channels.

Contribution

It introduces a theoretical protocol for teleporting accelerated quantum information and examines the effects of entanglement and acceleration on fidelity.

Findings

Fidelity increases with entanglement for both accelerated and non-accelerated information.

Fidelity improves as the difference between the accelerated channel and information decreases.

Quantum information transfer outperforms classical information transfer over accelerated channels.

Abstract

A theoretical quantum teleportation protocal is suggested to teleport accelerated and non-accelerated information over different classes of accelerated quantum channels. For the accelerated information, it is shown that the fidelity of the teleported state increases as the entanglement of the initial quantum channel increases. However as the difference between the accelerated channel and the accelerated information decreases the fidelity increases. The fidelity of the non accelerated information increases as the entanglement of the initial quantum channel increases, while the accelerations of the quantum channel has a little effect. The possibility of sending quantum information over accelerated quantum channels is much better than sending classical information.