Publikation: Theory of quantum entanglement and the structure of two-mode squeezed antiferromagnetic magnon vacuum
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Recent investigations of the quantum properties of an antiferromagnet in the spin wave approximation have identified the eigenstates as two-mode squeezed sublattice states. The uniform squeezed vacuum and one-magnon states were shown to display a massive sublattice entanglement. Here we expand this investigation and study the squeezing properties of all sublattice Fock states throughout the magnetic Brillouin zone. We derive the full statistics of the sublattice magnon number with wave number k⃗ in the ground state and show that magnons are created in pairs with opposite wavevectors, hence, resulting in entanglement of both modes. To quantify the degree of entanglement we apply the Duan-Giedke-Cirac-Zoller inequality and show that it can be violated for all modes. The degree of entanglement decrease towards the corners of the Brillouin zone. We relate the entanglement to measurable correlations of components of the Néel and the magnetization vectors, thus, allowing to experimentally test the quantum nature of the squeezed vacuum. The distinct k⃗ -space structure of the probabilites shows that the squeezed vacuum has a nonuniform shape that is revealed through the k⃗ -dependent correlators for the magnetization and the Néel vectors.
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WUHRER, Dennis, Niklas ROHLING, Wolfgang BELZIG, 2022. Theory of quantum entanglement and the structure of two-mode squeezed antiferromagnetic magnon vacuum. In: Physical Review B. American Physical Society (APS). 2022, 105, 054406. ISSN 2469-9950. eISSN 2469-9969. Available under: doi: 10.1103/PhysRevB.105.054406BibTex
@article{Wuhrer2022Theor-54707.2,
year={2022},
doi={10.1103/PhysRevB.105.054406},
title={Theory of quantum entanglement and the structure of two-mode squeezed antiferromagnetic magnon vacuum},
volume={105},
issn={2469-9950},
journal={Physical Review B},
author={Wuhrer, Dennis and Rohling, Niklas and Belzig, Wolfgang},
note={Article Number: 054406}
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<dcterms:abstract xml:lang="eng">Recent investigations of the quantum properties of an antiferromagnet in the spin wave approximation have identified the eigenstates as two-mode squeezed sublattice states. The uniform squeezed vacuum and one-magnon states were shown to display a massive sublattice entanglement. Here we expand this investigation and study the squeezing properties of all sublattice Fock states throughout the magnetic Brillouin zone. We derive the full statistics of the sublattice magnon number with wave number k⃗ in the ground state and show that magnons are created in pairs with opposite wavevectors, hence, resulting in entanglement of both modes. To quantify the degree of entanglement we apply the Duan-Giedke-Cirac-Zoller inequality and show that it can be violated for all modes. The degree of entanglement decrease towards the corners of the Brillouin zone. We relate the entanglement to measurable correlations of components of the Néel and the magnetization vectors, thus, allowing to experimentally test the quantum nature of the squeezed vacuum. The distinct k⃗ -space structure of the probabilites shows that the squeezed vacuum has a nonuniform shape that is revealed through the k⃗ -dependent correlators for the magnetization and the Néel vectors.</dcterms:abstract>
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