Coherent activation of a steerability-breaking channel

Huan Yu Ku; Kuan Yi Lee; Po Rong Lai; Jhen Dong Lin; Yueh Nan Chen

doi:10.1103/PhysRevA.107.042415

Coherent activation of a steerability-breaking channel

Huan Yu Ku, Kuan Yi Lee, Po Rong Lai, Jhen Dong Lin, Yueh Nan Chen

物理學系

研究成果: Article › 同行評審

1 引文斯高帕斯（Scopus）

摘要

The inevitable noise within one-sided device-independent quantum information tasks may completely break any steering resources. These noisy effects are characterized by the steerability breaking (SB) channels. In this work, we demonstrate the use of a control system that can superpose N copies of the given SB channel to activate SB channels such that the channel becomes a non-SB one. In particular, we analytically and numerically show that the SB depolarizing and amplitude-damping channel can be coherently activated when N≥2. In addition, for both cases, the channels can preserve more steerability when increasing N. Finally, we propose circuit models to implement our proposed approaches and present the simulation results.

原文	English
文章編號	042415
期刊	Physical Review A
卷	107
發行號	4
DOIs	https://doi.org/10.1103/PhysRevA.107.042415
出版狀態	Published - 2023 4月

All Science Journal Classification (ASJC) codes

原子與分子物理與光學

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10.1103/PhysRevA.107.042415

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title = "Coherent activation of a steerability-breaking channel",

abstract = "The inevitable noise within one-sided device-independent quantum information tasks may completely break any steering resources. These noisy effects are characterized by the steerability breaking (SB) channels. In this work, we demonstrate the use of a control system that can superpose N copies of the given SB channel to activate SB channels such that the channel becomes a non-SB one. In particular, we analytically and numerically show that the SB depolarizing and amplitude-damping channel can be coherently activated when N≥2. In addition, for both cases, the channels can preserve more steerability when increasing N. Finally, we propose circuit models to implement our proposed approaches and present the simulation results.",

author = "Ku, {Huan Yu} and Lee, {Kuan Yi} and Lai, {Po Rong} and Lin, {Jhen Dong} and Chen, {Yueh Nan}",

note = "Funding Information: H.-Y.K. acknowledges partial support from the National Center for Theoretical Sciences and National Science and Technology Council, Taiwan, Grants No. MOST 110-2811-M-006-546 and No. 111-2917-I-564-005. This work is supported partially by the National Center for Theoretical Sciences and National Science and Technology Council, Taiwan, Grant No. MOST 111-2123-M-006-001. H.-Y.K. is partially supported by the Austrian Science Fund (FWF) through Project No. ZK 3 (Zukunftskolleg). Publisher Copyright: {\textcopyright} 2023 American Physical Society. ",

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AU - Ku, Huan Yu

AU - Lee, Kuan Yi

AU - Lai, Po Rong

AU - Lin, Jhen Dong

AU - Chen, Yueh Nan

N1 - Funding Information: H.-Y.K. acknowledges partial support from the National Center for Theoretical Sciences and National Science and Technology Council, Taiwan, Grants No. MOST 110-2811-M-006-546 and No. 111-2917-I-564-005. This work is supported partially by the National Center for Theoretical Sciences and National Science and Technology Council, Taiwan, Grant No. MOST 111-2123-M-006-001. H.-Y.K. is partially supported by the Austrian Science Fund (FWF) through Project No. ZK 3 (Zukunftskolleg). Publisher Copyright: © 2023 American Physical Society.

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N2 - The inevitable noise within one-sided device-independent quantum information tasks may completely break any steering resources. These noisy effects are characterized by the steerability breaking (SB) channels. In this work, we demonstrate the use of a control system that can superpose N copies of the given SB channel to activate SB channels such that the channel becomes a non-SB one. In particular, we analytically and numerically show that the SB depolarizing and amplitude-damping channel can be coherently activated when N≥2. In addition, for both cases, the channels can preserve more steerability when increasing N. Finally, we propose circuit models to implement our proposed approaches and present the simulation results.

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Coherent activation of a steerability-breaking channel

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