Universal Critical Behaviours in Non-Hermitian Phase Transitions

Universal Critical Behaviours in Non-Hermitian Phase Transitions

Abstract Quantum phase transitions occur in non-Hermitian systems. In this work we show that density functional theory, for the first time, uncovers universal critical behaviors for quantum phase transitions and quantum entanglement in non-Hermitian many-body systems. To be specific, we first prove...

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Main Authors: Bo-Bo Wei, Liang Jin
Format: Article
Language:English
Published: Nature Publishing Group 2017-08-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-07344-z
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spelling doaj-da53ceeb825a4b69847e5cd97da6a40c2020-12-08T02:03:14ZengNature Publishing GroupScientific Reports2045-23222017-08-01711710.1038/s41598-017-07344-zUniversal Critical Behaviours in Non-Hermitian Phase TransitionsBo-Bo Wei0Liang Jin1School of Physics and Energy, Shenzhen UniversitySchool of Physics, Nankai UniversityAbstract Quantum phase transitions occur in non-Hermitian systems. In this work we show that density functional theory, for the first time, uncovers universal critical behaviors for quantum phase transitions and quantum entanglement in non-Hermitian many-body systems. To be specific, we first prove that the non-degenerate steady state of a non-Hermitian quantum many body system is a universal function of the first derivative of the steady state energy with respect to the control parameter. This finding has far-reaching consequences for non-Hermitian systems. First, it bridges the non-analytic behavior of physical observable and no-analytic behavior of steady state energy, which explains why the quantum phase transitions in non-Hermitian systems occur for finite systems. Second, it predicts universal scaling behaviors of any physical observable at non-Hermitian phase transition point with scaling exponent being (1 − 1/p) with p being the number of coalesced states at the exceptional point. Third, it reveals that quantum entanglement in non-Hermitian phase transition point presents universal scaling behaviors with critical exponents being (1 − 1/p). These results uncover universal critical behaviors in non-Hermitian phase transitions and provide profound connections between entanglement and phase transition in non-Hermitian quantum many-body physics.https://doi.org/10.1038/s41598-017-07344-z
collection DOAJ
language English
format Article
sources DOAJ
author Bo-Bo Wei
Liang Jin
spellingShingle Bo-Bo Wei
Liang Jin
Universal Critical Behaviours in Non-Hermitian Phase Transitions
Scientific Reports
author_facet Bo-Bo Wei
Liang Jin
author_sort Bo-Bo Wei
title Universal Critical Behaviours in Non-Hermitian Phase Transitions
title_short Universal Critical Behaviours in Non-Hermitian Phase Transitions
title_full Universal Critical Behaviours in Non-Hermitian Phase Transitions
title_fullStr Universal Critical Behaviours in Non-Hermitian Phase Transitions
title_full_unstemmed Universal Critical Behaviours in Non-Hermitian Phase Transitions
title_sort universal critical behaviours in non-hermitian phase transitions
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-08-01
description Abstract Quantum phase transitions occur in non-Hermitian systems. In this work we show that density functional theory, for the first time, uncovers universal critical behaviors for quantum phase transitions and quantum entanglement in non-Hermitian many-body systems. To be specific, we first prove that the non-degenerate steady state of a non-Hermitian quantum many body system is a universal function of the first derivative of the steady state energy with respect to the control parameter. This finding has far-reaching consequences for non-Hermitian systems. First, it bridges the non-analytic behavior of physical observable and no-analytic behavior of steady state energy, which explains why the quantum phase transitions in non-Hermitian systems occur for finite systems. Second, it predicts universal scaling behaviors of any physical observable at non-Hermitian phase transition point with scaling exponent being (1 − 1/p) with p being the number of coalesced states at the exceptional point. Third, it reveals that quantum entanglement in non-Hermitian phase transition point presents universal scaling behaviors with critical exponents being (1 − 1/p). These results uncover universal critical behaviors in non-Hermitian phase transitions and provide profound connections between entanglement and phase transition in non-Hermitian quantum many-body physics.
url https://doi.org/10.1038/s41598-017-07344-z
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AT liangjin universalcriticalbehavioursinnonhermitianphasetransitions
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