We unravel the interplay of topological properties and the layered (anti)ferromagnetic ordering in EuSn2P2, using spin and chemical selective electron and X-ray spectroscopies supported by first- principle calculations. We reveal the presence of in-plane long- range ferromagnetic order triggering topological invariants and resulting in the multiple protection of topological Dirac states. We provide clear evidence that layer-dependent spin-momentum lock- ing coexists with ferromagnetism in this material, a cohabitation that promotes EuSn2P2 as a prime candidate axion insulator for topological antiferromagnetic spintronics applications.
Evidence of magnetism-induced topological protection in the axion insulator candidate EuSn 2 P2 / G. Marco Pierantozzi, A. DE VITA, C. Bigi, X. Gui, H. Tien, D. Mondal, F. Mazzola, J. Fujii, I. Vobornik, G. Vinai, A. Sala, C. Africh, T. Lee, G. Rossi, T. Chang, W.X.R.J. Cava, A. Giancarlo Panaccione. - In: PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA. - ISSN 1091-6490. - 119:4(2022 Jan), pp. e2116575119.1-e2116575119.6. [10.1073/pnas.2116575119]
Evidence of magnetism-induced topological protection in the axion insulator candidate EuSn 2 P2
A. DE VITASecondo
;C. Bigi;G. Rossi;
2022
Abstract
We unravel the interplay of topological properties and the layered (anti)ferromagnetic ordering in EuSn2P2, using spin and chemical selective electron and X-ray spectroscopies supported by first- principle calculations. We reveal the presence of in-plane long- range ferromagnetic order triggering topological invariants and resulting in the multiple protection of topological Dirac states. We provide clear evidence that layer-dependent spin-momentum lock- ing coexists with ferromagnetism in this material, a cohabitation that promotes EuSn2P2 as a prime candidate axion insulator for topological antiferromagnetic spintronics applications.
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