Quantification of Entanglement from Magnetic Susceptibility for a Heisenberg Spin 1/2 system

Details Quantification of Entanglement from Magnetic Susceptibility for a Heisenberg Spin 1/2 system Quantification of Entanglement from Magnetic Susceptibility for a Heisenberg Spin 1/2 system

2012-04-25

arxiv.org/abs/1204.5669v2

Physics

Condensed Matter

Strongly Correlated Electrons

Scientific paper

Temperature and magnetic field dependent magnetization and extraction of entanglement from the experimental data is reported for dichloro(thiazole)copper(II), a Heisenberg spin chain system. The magnetic susceptibility vs. temperature plot exhibits signature of infinite spin chain. Isothermal magnetization measurements (as a function of magnetic field) were performed at various temperatures below the antiferromagnetic (AFM) ordering, where the AFM correlations persist significantly. These magnetization curves are fitted to the theoretically generated Bonner-Fisher model. Magnetic susceptibility can be used as a macroscopic witness of entanglement; using which entanglement is extracted from the experimentally measured magnetic data.

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