Influence of Deterministic Attenuation and Amplification of Optical Signals on Entanglement and Distillation of Gaussian and Non-Gaussian Quantum States

Influence of Deterministic Attenuation and Amplification of Optical Signals on Entanglement and Distillation of Gaussian and Non-Gaussian Quantum States

We study general rules of entanglement dynamics for two-mode continuous variable states subjected to deterministic phase-insensitive attenuation and amplification. Since those processes inevitably involve quantum noises, we propose and solve the problem of finding noise levels destroying entanglemen...

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Main Author: Filippov S.N.
Format: Article
Language:English
Published: EDP Sciences 2015-01-01
Series:EPJ Web of Conferences
Subjects:
attenuator
amplifier
quantum entanglement
distillation
non-Gaussian states
Online Access:http://dx.doi.org/10.1051/epjconf/201510303003
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spelling doaj-a64e5b38af384695a5a08a6bfea28d862021-08-02T05:47:41ZengEDP SciencesEPJ Web of Conferences2100-014X2015-01-011030300310.1051/epjconf/201510303003epjconf_iwqo2015_03003Influence of Deterministic Attenuation and Amplification of Optical Signals on Entanglement and Distillation of Gaussian and Non-Gaussian Quantum StatesFilippov S.N.We study general rules of entanglement dynamics for two-mode continuous variable states subjected to deterministic phase-insensitive attenuation and amplification. Since those processes inevitably involve quantum noises, we propose and solve the problem of finding noise levels destroying entanglement of Gaussian and non-Gaussian states. The amplification with power gain greater or equal than 2 necessarily leads to the total loss of entanglement. We consider non-Gaussian states whose entanglement is robust to arbitrary signal attenuation and amplification provided the noise is restricted by some value close to the quantum limited operation. We calculate the lower bound on distillation rate of Bell states.http://dx.doi.org/10.1051/epjconf/201510303003attenuatoramplifierquantum entanglementdistillationnon-Gaussian states
collection DOAJ
language English
format Article
sources DOAJ
author Filippov S.N.
spellingShingle Filippov S.N.
Influence of Deterministic Attenuation and Amplification of Optical Signals on Entanglement and Distillation of Gaussian and Non-Gaussian Quantum States
EPJ Web of Conferences
attenuator
amplifier
quantum entanglement
distillation
non-Gaussian states
author_facet Filippov S.N.
author_sort Filippov S.N.
title Influence of Deterministic Attenuation and Amplification of Optical Signals on Entanglement and Distillation of Gaussian and Non-Gaussian Quantum States
title_short Influence of Deterministic Attenuation and Amplification of Optical Signals on Entanglement and Distillation of Gaussian and Non-Gaussian Quantum States
title_full Influence of Deterministic Attenuation and Amplification of Optical Signals on Entanglement and Distillation of Gaussian and Non-Gaussian Quantum States
title_fullStr Influence of Deterministic Attenuation and Amplification of Optical Signals on Entanglement and Distillation of Gaussian and Non-Gaussian Quantum States
title_full_unstemmed Influence of Deterministic Attenuation and Amplification of Optical Signals on Entanglement and Distillation of Gaussian and Non-Gaussian Quantum States
title_sort influence of deterministic attenuation and amplification of optical signals on entanglement and distillation of gaussian and non-gaussian quantum states
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2015-01-01
description We study general rules of entanglement dynamics for two-mode continuous variable states subjected to deterministic phase-insensitive attenuation and amplification. Since those processes inevitably involve quantum noises, we propose and solve the problem of finding noise levels destroying entanglement of Gaussian and non-Gaussian states. The amplification with power gain greater or equal than 2 necessarily leads to the total loss of entanglement. We consider non-Gaussian states whose entanglement is robust to arbitrary signal attenuation and amplification provided the noise is restricted by some value close to the quantum limited operation. We calculate the lower bound on distillation rate of Bell states.
topic attenuator
amplifier
quantum entanglement
distillation
non-Gaussian states
url http://dx.doi.org/10.1051/epjconf/201510303003
work_keys_str_mv AT filippovsn influenceofdeterministicattenuationandamplificationofopticalsignalsonentanglementanddistillationofgaussianandnongaussianquantumstates
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