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Effects of DM and KSEA interactions on entanglement, Fisher and Wigner-Yanase information correlations of two XYZ-Heisenberg-qubit states under a magnetic field

Safae Gaidi, Abdallah Slaoui, A.‐B. A. Mohamed, Mohammed El Falaki, R. Ahl Laamara

2024Physica Scripta19 citationsDOIOpen Access PDF

Abstract

Abstract 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 D z enhances thermal entanglement. Conversely, in the ferromagnetic case, the behavior of thermal entanglement differs with varying D z . 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.

Topics & Concepts

Quantum entanglementDephasingPhysicsQuantum decoherenceQubitQuantum discordQuantum mechanicsThermalQuantumAntiferromagnetismFisher informationCondensed matter physicsMathematicsThermodynamicsStatisticsQuantum Information and CryptographyQuantum and electron transport phenomenaQuantum Computing Algorithms and Architecture
Effects of DM and KSEA interactions on entanglement, Fisher and Wigner-Yanase information correlations of two XYZ-Heisenberg-qubit states under a magnetic field | Litcius