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Flat band, spin-1 Dirac cone, and Hofstadter diagram in the fermionic square kagome model

Tomonari Mizoguchi, Yoshihito Kuno, Yasuhiro Hatsugai

2021Physical review. B./Physical review. B28 citationsDOIOpen Access PDF

Abstract

We study characteristic band structures of the fermions on a square kagome lattice, one of the two-dimensional lattices hosting a corner-sharing network of triangles. We show that the band structures of the nearest-neighbor tight-binding model exhibit many characteristic features, including a flat band which is ubiquitous among frustrated lattices. On the flat band, we elucidate its origin by using the molecular-orbital representation and also find localized exact eigenstates called compact localized states. In addition to the flat band, we also find two spin-1 Dirac cones with different energies. These spin-1 Dirac cones are not described by the simplest effective Dirac Hamiltonian because the middle band is bended and the energy spectrum is particle-hole asymmetric. We also investigated the Hofstadter problem on a square kagome lattice in the presence of an external field and find that the profile of the Chern numbers around the modified spin-1 Dirac cones coincides with the conventional one.

Topics & Concepts

PhysicsSquare latticeHamiltonian (control theory)Electronic band structureCondensed matter physicsDirac (video compression format)Dirac fermionBand diagramQuantum mechanicsSquare (algebra)Spin (aerodynamics)Lattice (music)FermionGeometryIsing modelMathematicsMathematical optimizationNeutrinoThermodynamicsAcousticsTopological Materials and PhenomenaAdvanced Condensed Matter PhysicsQuantum many-body systems
Flat band, spin-1 Dirac cone, and Hofstadter diagram in the fermionic square kagome model | Litcius