The task of preserving entanglement against noises is of crucial importance for both quantum communication and quantum information transfer. To this aim, quantum error correction (QEC) codes may be employed to compensate, at least partially, the detriments induced by environmental noise that can be modeled as a bit-flip or a phase-flip error channel. In this paper, we investigate the effects of the simple three-qubit QEC codes to restore entanglement and nonlocality in a two-qubit system and consider two practical applications: superdense coding and quantum teleportation. Though the considered three-qubit QEC codes are known to perfectly work in the presence of very small noise, we show that they can avoid the sudden death of entanglement and improve the performance of the addressed protocols also for larger noise amplitudes.

Entanglement recovery in noisy binary quantum information protocols via three-qubit quantum error correction codes / A. Morea, M.N. Notarnicola, S. Olivares. - In: INTERNATIONAL JOURNAL OF QUANTUM INFORMATION. - ISSN 0219-7499. - (2023 Feb 13), pp. 2340002.1-2340002.14. [10.1142/S0219749923400026]

Entanglement recovery in noisy binary quantum information protocols via three-qubit quantum error correction codes

M.N. Notarnicola
Secondo
;
S. Olivares
Ultimo
2023

Abstract

The task of preserving entanglement against noises is of crucial importance for both quantum communication and quantum information transfer. To this aim, quantum error correction (QEC) codes may be employed to compensate, at least partially, the detriments induced by environmental noise that can be modeled as a bit-flip or a phase-flip error channel. In this paper, we investigate the effects of the simple three-qubit QEC codes to restore entanglement and nonlocality in a two-qubit system and consider two practical applications: superdense coding and quantum teleportation. Though the considered three-qubit QEC codes are known to perfectly work in the presence of very small noise, we show that they can avoid the sudden death of entanglement and improve the performance of the addressed protocols also for larger noise amplitudes.
Quantum error correction; superdense coding; quantum teleportation.
Settore FIS/03 - Fisica della Materia
   Piano Sviluppo Unimi - Linea 3 - Bando SOE 2020 - Progetto S-O PhoQuLis
   S-O PhoQuLis
   UNIVERSITA' DEGLI STUDI DI MILANO
13-feb-2023
https://www.worldscientific.com/doi/epdf/10.1142/S0219749923400026
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/958799
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