Joint remote state preparation (JRSP) of two-qubit equatorial state in quantum noisy channels

Adenike Grace Adepoju; Babatunde James Falaye; Guo Hua Sun; Oscar Camacho-Nieto; Shi Hai Dong

doi:10.1016/j.physleta.2016.12.021

Joint remote state preparation (JRSP) of two-qubit equatorial state in quantum noisy channels

Adenike Grace Adepoju, Babatunde James Falaye, Guo Hua Sun, Oscar Camacho-Nieto, Shi Hai Dong

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

53 Citas (Scopus)

Resumen

This letter reports the influence of noisy channels on JRSP of two-qubit equatorial state. We present a protocol for JRSP of two-qubit equatorial state. Afterward, we investigate the effects of five quantum noises on the protocol. We find that the system loses some of its properties as consequence of unwanted interactions with environment. For instance, within the domain 0<λ<0.65, the information lost via transmission of qubits in amplitude channel is most minimal, while for 0.65<λ≤1, the information lost in phase flip channel becomes the most minimal. Also, for any given λ, the information transmitted through depolarizing channel has the least chance of success.

Idioma original	Inglés
Páginas (desde-hasta)	581-587
Número de páginas	7
Publicación	Physics Letters, Section A: General, Atomic and Solid State Physics
Volumen	381
N.º	6
DOI	https://doi.org/10.1016/j.physleta.2016.12.021
Estado	Publicada - 12 feb. 2017

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title = "Joint remote state preparation (JRSP) of two-qubit equatorial state in quantum noisy channels",

abstract = "This letter reports the influence of noisy channels on JRSP of two-qubit equatorial state. We present a protocol for JRSP of two-qubit equatorial state. Afterward, we investigate the effects of five quantum noises on the protocol. We find that the system loses some of its properties as consequence of unwanted interactions with environment. For instance, within the domain 0<λ<0.65, the information lost via transmission of qubits in amplitude channel is most minimal, while for 0.65<λ≤1, the information lost in phase flip channel becomes the most minimal. Also, for any given λ, the information transmitted through depolarizing channel has the least chance of success.",

keywords = "Amplitude-damping noise, Bit flip, Depolarizing noise, Joint remote state preparation, Phase damping noise, Phase flip",

author = "Adepoju, {Adenike Grace} and Falaye, {Babatunde James} and Sun, {Guo Hua} and Oscar Camacho-Nieto and Dong, {Shi Hai}",

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Joint remote state preparation (JRSP) of two-qubit equatorial state in quantum noisy channels. / Adepoju, Adenike Grace; Falaye, Babatunde James; Sun, Guo Hua et al.
En: Physics Letters, Section A: General, Atomic and Solid State Physics, Vol. 381, N.º 6, 12.02.2017, p. 581-587.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - Joint remote state preparation (JRSP) of two-qubit equatorial state in quantum noisy channels

AU - Adepoju, Adenike Grace

AU - Falaye, Babatunde James

AU - Sun, Guo Hua

AU - Camacho-Nieto, Oscar

AU - Dong, Shi Hai

PY - 2017/2/12

Y1 - 2017/2/12

N2 - This letter reports the influence of noisy channels on JRSP of two-qubit equatorial state. We present a protocol for JRSP of two-qubit equatorial state. Afterward, we investigate the effects of five quantum noises on the protocol. We find that the system loses some of its properties as consequence of unwanted interactions with environment. For instance, within the domain 0<λ<0.65, the information lost via transmission of qubits in amplitude channel is most minimal, while for 0.65<λ≤1, the information lost in phase flip channel becomes the most minimal. Also, for any given λ, the information transmitted through depolarizing channel has the least chance of success.

AB - This letter reports the influence of noisy channels on JRSP of two-qubit equatorial state. We present a protocol for JRSP of two-qubit equatorial state. Afterward, we investigate the effects of five quantum noises on the protocol. We find that the system loses some of its properties as consequence of unwanted interactions with environment. For instance, within the domain 0<λ<0.65, the information lost via transmission of qubits in amplitude channel is most minimal, while for 0.65<λ≤1, the information lost in phase flip channel becomes the most minimal. Also, for any given λ, the information transmitted through depolarizing channel has the least chance of success.

KW - Amplitude-damping noise

KW - Bit flip

KW - Depolarizing noise

KW - Joint remote state preparation

KW - Phase damping noise

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U2 - 10.1016/j.physleta.2016.12.021

DO - 10.1016/j.physleta.2016.12.021

M3 - Artículo

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SP - 581

EP - 587

JO - Physics Letters, Section A: General, Atomic and Solid State Physics

JF - Physics Letters, Section A: General, Atomic and Solid State Physics

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Joint remote state preparation (JRSP) of two-qubit equatorial state in quantum noisy channels

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