Spin polarized edge states in proximitized ferromagnetic transition metal dichalcogenides
ORAL
Abstract
Transition metal dichalcogenide (TMD) monolayers deposited on a ferromagnetic substrate such as europium oxide (EuO) experience proximity-induced ferromagnetism. We explore the nature of states appearing at the edge of proximitized TMD ribbons and nanoflakes by means of a real-space three-orbital tight-binding model that incorporates the magnetic interaction effects induced by the substrate. For commensurate structures, such as MoTe2 on EuO, we study spin and orbital composition of states for zigzag and armchair edges. We find that states at zigzag borders are extended and strongly spin-polarized, exhibiting the competition of exchange and spin-orbit coupling. The real-space approach also allows the description of incommensurate systems, such as MoS2 on EuO. The competition of magnetic and lattice periodicities has strong effects on the states, especially on their dispersion and spin texture.
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Presenters
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Natalia Cortés
Departamento de Fisica, Univ Tecnica Federico Santa Maria
Authors
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Natalia Cortés
Departamento de Fisica, Univ Tecnica Federico Santa Maria
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Oscar Avalos Ovando
Department of Physics, Ohio University, Ohio University
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Luis Rosales
Departamento de Fisica, Univ Tecnica Federico Santa Maria
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Pedro Orellana
Univ Tecnica Federico Santa Maria, Departamento de Fisica, Univ Tecnica Federico Santa Maria
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Sergio Ulloa
Department of Physics and Astronomy, Ohio University, Physics and Astronomy, Ohio Univ, Physics and Astronomy, Ohio University, Department of Physics, Ohio University, Ohio University