Quantum discord protection from amplitude damping decoherence

Jiwon Yune; Kang Hee Hong; Hyang Tag Lim; Jong Chan Lee; Osung Kwon; Sang Wook Han; Yong Su Kim; Sung Moon; Yoon Ho Kim

doi:10.1364/OE.23.026012

Quantum discord protection from amplitude damping decoherence

Jiwon Yune, Kang Hee Hong, Hyang Tag Lim, Jong Chan Lee, Osung Kwon, Sang Wook Han, Yong Su Kim, Sung Moon, Yoon Ho Kim

Department of New Biology

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

Entanglement is known to be an essential resource for many quantum information processes. However, it is now known that some quantum features may be acheived with quantum discord, a generalized measure of quantum correlation. In this paper, we study how quantum discord, or more specifically, the measures of entropic discord and geometric discord are affected by the influence of amplitude damping decoherence. We also show that a protocol deploying weak measurement and quantum measurement reversal can effectively protect quantum discord from amplitude damping decoherence, enabling to distribute quantum correlation between two remote parties in a noisy environment.

Original language	English
Pages (from-to)	26012-26022
Number of pages	11
Journal	Optics Express
Volume	23
Issue number	20
DOIs	https://doi.org/10.1364/OE.23.026012
State	Published - 5 Oct 2015

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© 2015 Optical Society of America.

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abstract = "Entanglement is known to be an essential resource for many quantum information processes. However, it is now known that some quantum features may be acheived with quantum discord, a generalized measure of quantum correlation. In this paper, we study how quantum discord, or more specifically, the measures of entropic discord and geometric discord are affected by the influence of amplitude damping decoherence. We also show that a protocol deploying weak measurement and quantum measurement reversal can effectively protect quantum discord from amplitude damping decoherence, enabling to distribute quantum correlation between two remote parties in a noisy environment.",

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AU - Lim, Hyang Tag

AU - Lee, Jong Chan

AU - Kwon, Osung

AU - Han, Sang Wook

AU - Kim, Yong Su

AU - Moon, Sung

AU - Kim, Yoon Ho

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N2 - Entanglement is known to be an essential resource for many quantum information processes. However, it is now known that some quantum features may be acheived with quantum discord, a generalized measure of quantum correlation. In this paper, we study how quantum discord, or more specifically, the measures of entropic discord and geometric discord are affected by the influence of amplitude damping decoherence. We also show that a protocol deploying weak measurement and quantum measurement reversal can effectively protect quantum discord from amplitude damping decoherence, enabling to distribute quantum correlation between two remote parties in a noisy environment.

AB - Entanglement is known to be an essential resource for many quantum information processes. However, it is now known that some quantum features may be acheived with quantum discord, a generalized measure of quantum correlation. In this paper, we study how quantum discord, or more specifically, the measures of entropic discord and geometric discord are affected by the influence of amplitude damping decoherence. We also show that a protocol deploying weak measurement and quantum measurement reversal can effectively protect quantum discord from amplitude damping decoherence, enabling to distribute quantum correlation between two remote parties in a noisy environment.

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Quantum discord protection from amplitude damping decoherence

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