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Thermal correlations and entropic uncertainty in a two-spin system under DM and KSEA interactions

Youssef Khedif, Saeed Haddadi, Mohammad Reza Pourkarimi, M. Daoud

2021Modern Physics Letters A65 citationsDOI

Abstract

In this paper, the thermal quantum correlations along with the thermal entropic uncertainty in a two neighboring XYZ Heisenberg spin-1/2 particles subjected to a transverse external magnetic field with the interplay of both antisymmetric Dzyaloshinskii–Moriya and symmetric Kaplan–Shekhtman–Entin–Wohlman–Aharony are investigated. The quantum consonance and uncertainty-induced quantum nonlocality as well as the entropic uncertainty with quantum memory for the considered system are specified and the thermal behaviors of them in terms of the system parameters are examined. The expected decrease of quantum correlations for higher absolute temperatures is confirmed while the inflation of the uncertainty is generated. Moreover, we show that the stronger spin-spin and spin-orbit exchange couplings can enhance the thermal quantum correlations and suppress the uncertainty. Accordingly, our remarks are expected to be beneficent in illustrating the dynamical quantum correlations and entropy-based uncertainty in a general Heisenberg spin-chain model and thus would be useful for practical quantum information processing.

Topics & Concepts

PhysicsQuantumUncertainty principleQuantum fluctuationSpin (aerodynamics)Antisymmetric relationQuantum discordQuantum mechanicsEntropic uncertaintyQuantum nonlocalityThermal fluctuationsThermalEntropy (arrow of time)Statistical physicsQuantum dynamicsQuantum entanglementThermodynamicsMathematical physicsQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum many-body systems
Thermal correlations and entropic uncertainty in a two-spin system under DM and KSEA interactions | Litcius