Topological properties of multilayer magnon insulators

Stephen Hofer; Trinanjan Datta; Sumanta Tewari; Dipanjan Mazumdar

doi:10.1103/PhysRevB.104.064427

Topological properties of multilayer magnon insulators

Stephen Hofer, Trinanjan Datta, Sumanta Tewari, Dipanjan Mazumdar

Physics and Biophysics

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

Abstract

Two-dimensional magnetic insulators can be promising hosts for topological magnons. In this study, we show that ABC-stacked honeycomb lattice multilayers with alternating Dzyaloshinskii-Moriya interaction (DMI) reveal a rich topological magnon phase diagram. Based on our band-structure and Berry curvature calculations, we demonstrate jumps in the thermal Hall behavior that corroborate with topological phase transitions triggered by adjusting the DMI and interlayer coupling. We connect the phase diagram of generic multilayers to a bilayer and a trilayer system. We find an even-odd effect among the multilayers where the even layers show no jump in thermal Hall conductivity, but the odd layers do. We also observe the presence of topological proximity effect in our trilayer. Our results offer new schemes to manipulate Chern numbers and their measurable effects in topological magnonic systems.

Original language	English (US)
Article number	064427
Journal	Physical Review B
Volume	104
Issue number	6
DOIs	https://doi.org/10.1103/PhysRevB.104.064427
State	Published - Aug 1 2021

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.104.064427

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title = "Topological properties of multilayer magnon insulators",

abstract = "Two-dimensional magnetic insulators can be promising hosts for topological magnons. In this study, we show that ABC-stacked honeycomb lattice multilayers with alternating Dzyaloshinskii-Moriya interaction (DMI) reveal a rich topological magnon phase diagram. Based on our band-structure and Berry curvature calculations, we demonstrate jumps in the thermal Hall behavior that corroborate with topological phase transitions triggered by adjusting the DMI and interlayer coupling. We connect the phase diagram of generic multilayers to a bilayer and a trilayer system. We find an even-odd effect among the multilayers where the even layers show no jump in thermal Hall conductivity, but the odd layers do. We also observe the presence of topological proximity effect in our trilayer. Our results offer new schemes to manipulate Chern numbers and their measurable effects in topological magnonic systems.",

author = "Stephen Hofer and Trinanjan Datta and Sumanta Tewari and Dipanjan Mazumdar",

note = "Funding Information: S.H. and D.M. would like to acknowledge funding from the NSF CAREER grant (ECCS, Award No.1846829) for support of this work. T.D. acknowledges funding support from Sun Yat-Sen University Grants No. OEMT-2017-KF-06 and No. OEMT-2019-KF-04. S.T. acknowledges support from ARO Grant No. W911NF-16-1-0182. T.D. thanks Jun Li and D.X. Yao for several helpful discussions. Publisher Copyright: {\textcopyright} 2021 American Physical Society.",

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doi = "10.1103/PhysRevB.104.064427",

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AU - Tewari, Sumanta

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N1 - Funding Information: S.H. and D.M. would like to acknowledge funding from the NSF CAREER grant (ECCS, Award No.1846829) for support of this work. T.D. acknowledges funding support from Sun Yat-Sen University Grants No. OEMT-2017-KF-06 and No. OEMT-2019-KF-04. S.T. acknowledges support from ARO Grant No. W911NF-16-1-0182. T.D. thanks Jun Li and D.X. Yao for several helpful discussions. Publisher Copyright: © 2021 American Physical Society.

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N2 - Two-dimensional magnetic insulators can be promising hosts for topological magnons. In this study, we show that ABC-stacked honeycomb lattice multilayers with alternating Dzyaloshinskii-Moriya interaction (DMI) reveal a rich topological magnon phase diagram. Based on our band-structure and Berry curvature calculations, we demonstrate jumps in the thermal Hall behavior that corroborate with topological phase transitions triggered by adjusting the DMI and interlayer coupling. We connect the phase diagram of generic multilayers to a bilayer and a trilayer system. We find an even-odd effect among the multilayers where the even layers show no jump in thermal Hall conductivity, but the odd layers do. We also observe the presence of topological proximity effect in our trilayer. Our results offer new schemes to manipulate Chern numbers and their measurable effects in topological magnonic systems.

AB - Two-dimensional magnetic insulators can be promising hosts for topological magnons. In this study, we show that ABC-stacked honeycomb lattice multilayers with alternating Dzyaloshinskii-Moriya interaction (DMI) reveal a rich topological magnon phase diagram. Based on our band-structure and Berry curvature calculations, we demonstrate jumps in the thermal Hall behavior that corroborate with topological phase transitions triggered by adjusting the DMI and interlayer coupling. We connect the phase diagram of generic multilayers to a bilayer and a trilayer system. We find an even-odd effect among the multilayers where the even layers show no jump in thermal Hall conductivity, but the odd layers do. We also observe the presence of topological proximity effect in our trilayer. Our results offer new schemes to manipulate Chern numbers and their measurable effects in topological magnonic systems.

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Topological properties of multilayer magnon insulators

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