2019, Vol.22, No.1, pp.41 - 54

We construct a gauge theory of two-dimensional topological semimetals with exotic nonabelian Majorana-like gapless fermion excitations, in which Dirac crossings are protected by the existence of the confinement for Majorana states. We demonstrate the existence of zero-energy Majorana modes in Dirac points of graphene Brillouin zone and chiral braiding Majorana-like massless modes outside the neighborhood of the Dirac points. The braiding of Majorana-like states turns out to be due to relativistic electron-hole exchange interactions. The deconfined Majorana fermions reveal themselves through a set of gapped sequence of Fermi arcs. The relativistic exchange is able, through the spin-orbital coupling, to change the symmetry of the Dirac band to octagonal one and, accordingly, hexagonal symmetry of the electron density distribution changes to square one.

Key words: topological semimetal, graphene, Majorana-like equation, Majorana mass term, braiding, non-abelian gauge field

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