Type-III Dirac fermions in HfxZr1−xTe2 topological semimetal candidate

Type-III Dirac fermions in HfxZr1−xTe2 topological semimetal candidate

Topological semimetals host interesting new types of low-energy quasiparticles such as type-I and type-II Dirac and Weyl fermions. Type-III topological semimetals can emerge exactly at the border between type-I and II, characterized by a line-like Fermi surface and a flat energy dispersion near the...

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Veröffentlicht in:Journal of applied physics 2021-02, Vol.129 (7)
Hauptverfasser: Fragkos, Sotirios, Tsipas, Polychronis, Xenogiannopoulou, Evangelia, Panayiotatos, Yerassimos, Dimoulas, Athanasios
Format: Artikel
Sprache:eng
Schlagworte:
Applied physics
Compressive properties
Elementary excitations
Energy bands
Epitaxial growth
Fermi surfaces
Fermions
Metalloids
Molecular beam epitaxy
Photoelectric emission
Substrates
Topology
Transition metal compounds
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Zusammenfassung:Topological semimetals host interesting new types of low-energy quasiparticles such as type-I and type-II Dirac and Weyl fermions. Type-III topological semimetals can emerge exactly at the border between type-I and II, characterized by a line-like Fermi surface and a flat energy dispersion near the topological band crossing. Here, we theoretically predict that 1T-HfTe2 and 1T-ZrTe2 transition metal dichalcogenides are type-I and type-II DSMs, respectively. By alloying the two materials, a new HfxZr1−xTe2 alloy with type-III Dirac cone emerges at x = 0.2, in combination with 1% in-plane compressive strain. By imaging the electronic energy bands with in situ angle-resolved photoemission spectroscopy of this random alloy with the desired composition, grown by molecular beam epitaxy on InAs(111) substrates, we provide experimental evidence that the tοp of type-III Dirac cone lies at—or very close to—the Fermi level.
ISSN:0021-8979
1089-7550
DOI:10.1063/5.0038799