Competition of direct and indirect sources of thermal entanglement in a spin-star network

Napoli, A.

doi:10.1142/s0219749918500077

Int. J. Quantum Inform.

2018

DOI: 10.1142/s0219749918500077

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Competition of direct and indirect sources of thermal entanglement in a spin-star network

A. Napoli

Abstract: A spin star system consisting of three peripheral two-state systems and a central one is considered, with the peripheral spins assumed to interact with each other, as well as with the central one. It is shown that such two couplings, each one being a thermal entanglement source, can significantly compete in the formation of quantum correlations in the thermal state, to the point that they can destroy any thermal entanglement of the peripheral spins.

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Thermal quantum correlations in a two-dimensional spin star model

et al. 2019

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In this paper, we study the thermal evolution of three types of quantum correlations under the homogeneous and inhomogeneous spin star Hamiltonian. It is shown that quantum discord (QD) is more stable than the other measures in the thermal regime, but concurrence is more efficient when the Hamiltonian parameters are employed. However, all quantum correlations can reach their maximum, if the inhomogeneous parameter raises. Quantum correlations can be enhanced by a weak external magnetic field and strong coupling parameter. But they vanish in the case of a strong magnetic field, weak coupling parameter, and high temperatures.

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Thermal quantum correlations in a two-dimensional spin star model

et al. 2019

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Competition of direct and indirect sources of thermal entanglement in a spin-star network

Cited by 1 publication

References 45 publications

Thermal quantum correlations in a two-dimensional spin star model

Thermal quantum correlations in a two-dimensional spin star model

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