Edge states of ABA Trilayer Graphene Nanoribbons

Due to mirror symmetry the bands of ABA stacked trilayer graphene can be identified by their parity with respect to mirror symmetry. The even parity bands exhibit gapped bilayer graphene-like dispersion, while the odd parity bands exhibit a gapped graphene-like dispersion. Using a tight binding model with Slonczewski-Weiss-McClure parameters we look at the edge states in trilayer graphene nanoribbons in the quantum hall regime. Both armchair and zigzag edge nanoribbons are analyzed. When mirror symmetry is preserved, the system exhibits quantized longitudinal conductance at charge neutrality point, due to counterpropagating even and odd parity edge modes. We study the effects of perpendicular electric field and mirror symmetry breaking disorder on the longitudinal conductance.