Enhancing teleportation via noisy channels: effects of the induced multipartite entanglement

• URL: http://arxiv.org/abs/2404.09133v1
• Date: Sun, 14 Apr 2024 03:30:14 GMT
• Title: Enhancing teleportation via noisy channels: effects of the induced multipartite entanglement
• Authors: Victor H. T. Brauer, Andrea Valdés-Hernández,
• Abstract summary: noisy channels acting on a bipartite resource state are considered. Our analysis reveals that for a fixed entanglement of the resource state, the channels that better protect the teleportation fidelity against the detrimental effects of noise are those that generate higher amounts of (GHZ-type) multipartite entanglement.
• Score: 0.0
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Quantum teleportation in the presence of noisy channels acting on a bipartite resource state is considered. We consider a family of generalized noisy channels that continuously connect the amplitude damping and the dephasing channels, encompassing a wide family of in-between scenarios, to delve into the relation between the teleportation success and the amount of 3- and 4-partite entanglement (distributed among the qubits of the resource state and those representing local environments) generated during the evolution. Our analysis reveals that for a fixed entanglement of the resource state, the channels that better protect the teleportation fidelity against the detrimental effects of noise are those that generate higher amounts of (GHZ-type) multipartite entanglement. This suggests that the dynamically induced multipartite correlations may serve as an additional resource for teleportation, and throws light into the characterization of processes, and of the type of induced entanglement, according to their capability of assisting the protocol.

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