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Main Authors: Gaidi, S., Slaoui, A., Mohamed, A-B. A., Falaki, M. EL, Laamara, R. Ahl
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.07075
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author Gaidi, S.
Slaoui, A.
Mohamed, A-B. A.
Falaki, M. EL
Laamara, R. Ahl
author_facet Gaidi, S.
Slaoui, A.
Mohamed, A-B. A.
Falaki, M. EL
Laamara, R. Ahl
contents We employ entanglement negativity, local quantum uncertainty (LQU), and local quantum Fisher information (LQFI) to characterize thermal entanglement between two XYZ-Heisenberg-qubit states under the influence of Dzyaloshinsky Moriya (DM) and Kaplan Shekhtman Entin Wohlman Aharony (KSEA) interactions, as well as a magnetic field and thermal equilibrium temperature. A comparative examination reveals similar behaviors among these correlation measures. For the antiferromagnetic scenario, we observe that increasing the DM interaction parameter Dz enhances thermal entanglement. Conversely, in the ferromagnetic case, the behavior of thermal entanglement differs with varying Dz. Additionally, employing Kraus operators, we explore the performance of these quantifiers under decoherence. Notably, LQFI exhibits greater robustness than negativity and LQU, even displaying a frozen phenomenon at some time under dephasing effects.
format Preprint
id arxiv_https___arxiv_org_abs_2410_07075
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Effects of DM and KSEA interactions on entanglement, Fisher and Wigner-Yanase information correlations of two XYZ-Heisenberg-qubit states under a magnetic field
Gaidi, S.
Slaoui, A.
Mohamed, A-B. A.
Falaki, M. EL
Laamara, R. Ahl
Quantum Physics
We employ entanglement negativity, local quantum uncertainty (LQU), and local quantum Fisher information (LQFI) to characterize thermal entanglement between two XYZ-Heisenberg-qubit states under the influence of Dzyaloshinsky Moriya (DM) and Kaplan Shekhtman Entin Wohlman Aharony (KSEA) interactions, as well as a magnetic field and thermal equilibrium temperature. A comparative examination reveals similar behaviors among these correlation measures. For the antiferromagnetic scenario, we observe that increasing the DM interaction parameter Dz enhances thermal entanglement. Conversely, in the ferromagnetic case, the behavior of thermal entanglement differs with varying Dz. Additionally, employing Kraus operators, we explore the performance of these quantifiers under decoherence. Notably, LQFI exhibits greater robustness than negativity and LQU, even displaying a frozen phenomenon at some time under dephasing effects.
title Effects of DM and KSEA interactions on entanglement, Fisher and Wigner-Yanase information correlations of two XYZ-Heisenberg-qubit states under a magnetic field
topic Quantum Physics
url https://arxiv.org/abs/2410.07075