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arxiv: 2410.04102 · v2 · pith:YRTA2F4Hnew · submitted 2024-10-05 · ❄️ cond-mat.str-el

Three-Dimensional Topological Semimetal/Insulator States in α-Type Organic Conductors with Interlayer Spin-Orbit Interaction

classification ❄️ cond-mat.str-el
keywords alpha-interlayerinversionspin-orbitcouplingsemimetalalpha-typebets
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We have studied the tight-binding model for the \alpha-type layered organic conductors, \alpha-(ET)2I3 and \alpha-(BETS)2I3, with a uniform interlayer coupling accompanied by spin-orbit interaction originating from the I3- anion potential. The model preserves the time reversal and inversion symmetries. In \alpha-(ET)2I3, the interlayer spin-orbit coupling realizes the experimentally suggested Dirac semimetal state with inversion symmetry. In contrast, the inversion breaking in interlayer hoppings realizes the Weyl semimetal state without spin-orbit coupling. In \alpha-(BETS)2I3, the proposed strong topological insulator is hardly realized with inversion symmetry.

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