Intersublattice entanglement entropy as an extensive property in antiferromagnets

Dion M. F. Hartmann; Jurriaan J. Wouters; Dirk Schuricht; Rembert A. Duine; Akashdeep Kamra

doi:10.1103/PhysRevB.104.064436

Intersublattice entanglement entropy as an extensive property in antiferromagnets

Dion M. F. Hartmann, Jurriaan J. Wouters, Dirk Schuricht, Rembert A. Duine, Akashdeep Kamra

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Recent advancements in our understanding of ordered magnets call for a quantification of their entanglement content on an equal footing with classical thermodynamic quantities, such as the total magnetic moment. We evaluate the entanglement entropy (EE) between the two sublattices of a bipartite ordered antiferromagnet, finding it to scale with volume. Thus, the EE density becomes an intensive property and is evaluated to be a universal dimensionality-dependent constant when exchange is the dominant interaction. Our analytic results are validated against the DMRG-based analysis of a one-dimensional (1D) system, finding good agreement. Furthermore, our evaluated EE per bond provides a useful shortcut towards obtaining the central-cut EE in 1D, and the area law in higher-dimensional magnets.

Original language	English
Article number	064436
Pages (from-to)	1-7
Journal	Physical Review B
Volume	104
DOIs	https://doi.org/10.1103/PhysRevB.104.064436
Publication status	Published - 19 Aug 2021

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title = "Intersublattice entanglement entropy as an extensive property in antiferromagnets",

abstract = "Recent advancements in our understanding of ordered magnets call for a quantification of their entanglement content on an equal footing with classical thermodynamic quantities, such as the total magnetic moment. We evaluate the entanglement entropy (EE) between the two sublattices of a bipartite ordered antiferromagnet, finding it to scale with volume. Thus, the EE density becomes an intensive property and is evaluated to be a universal dimensionality-dependent constant when exchange is the dominant interaction. Our analytic results are validated against the DMRG-based analysis of a one-dimensional (1D) system, finding good agreement. Furthermore, our evaluated EE per bond provides a useful shortcut towards obtaining the central-cut EE in 1D, and the area law in higher-dimensional magnets.",

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AU - Hartmann, Dion M. F.

AU - Wouters, Jurriaan J.

AU - Schuricht, Dirk

AU - Duine, Rembert A.

AU - Kamra, Akashdeep

PY - 2021/8/19

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AB - Recent advancements in our understanding of ordered magnets call for a quantification of their entanglement content on an equal footing with classical thermodynamic quantities, such as the total magnetic moment. We evaluate the entanglement entropy (EE) between the two sublattices of a bipartite ordered antiferromagnet, finding it to scale with volume. Thus, the EE density becomes an intensive property and is evaluated to be a universal dimensionality-dependent constant when exchange is the dominant interaction. Our analytic results are validated against the DMRG-based analysis of a one-dimensional (1D) system, finding good agreement. Furthermore, our evaluated EE per bond provides a useful shortcut towards obtaining the central-cut EE in 1D, and the area law in higher-dimensional magnets.

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ER -

Intersublattice entanglement entropy as an extensive property in antiferromagnets

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