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Tilted Dirac cone effects and chiral symmetry breaking in a planar four-fermion model

Y. M. P. Gomes, Rudnei O. Ramos

2021Physical review. B./Physical review. B20 citationsDOIOpen Access PDF

Abstract

We analyze the chiral symmetry breaking in a planar four-fermion model with non-null chemical potential, temperature, and including the effect of the tilt of the Dirac cone. The system is modeled with a $(2+1)$-dimensional Gross-Neveu-like interaction model in the context of the generalized Weyl Hamiltonian and its phase structure is studied in the mean-field and large-$N$ approximations. Possible applications of the results obtained, e.g., in connection to graphene, are discussed. We also discuss the effect of an external magnetic field applied to the system, which can give rise to the appearance of the anomalous Hall effect and that is expected to arise in connection with two-dimensional Weyl and Dirac semimetals.

Topics & Concepts

PlanarPhysicsSymmetry breakingDirac fermionChiral anomalyChiral symmetry breakingDirac (video compression format)Symmetry (geometry)Helical Dirac fermionCone (formal languages)Theoretical physicsFermionQuantum mechanicsGeometryDirac spinorMathematicsComputer scienceAlgorithmNeutrinoComputer graphics (images)Topological Materials and PhenomenaNoncommutative and Quantum Gravity TheoriesBlack Holes and Theoretical Physics
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