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Topological Critical Materials of Ternary Compounds

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arxiv 1806.07656 v1 pith:BTSYJJQM submitted 2018-06-20 cond-mat.mtrl-sci cond-mat.mes-hall

Topological Critical Materials of Ternary Compounds

classification cond-mat.mtrl-sci cond-mat.mes-hall
keywords statestopologicalcompoundsenergyseriesternaryamgbicritical
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We review topological properties of two series of ternary compounds AMgBi (A=K, RB, Cs) and ABC with a hexagonal ZrBeSi type structure. The first series of materials AMgBi are predicted to be topological critical Dirac semimetals. The second series of ternary compounds, such as KZnP, BaAgAs, NaAuTe and KHgSb, can be used to realize various topological insulating states and semimetal states. The states are highly tunable as the realization of these topological states depends on the competition between several energy scales, including the energy of atomic orbitals, the energy of crystal splitting, the energy difference between bonding and antibonding states, and the strength of spin-orbit coupling. The exotic surface states in these series of compounds are predicted and are closely related to their unique crystal structures.

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