Article ID Journal Published Year Pages File Type
700925 Diamond and Related Materials 2010 4 Pages PDF
Abstract

The low-energy Landau levels of multilayer graphene ribbons with AB-stacking in the presence of a uniform perpendicular magnetic field (B) are investigated by the Peierls coupling tight-binding model. They are dominated by the B-field strength, the interlayer interactions, and the ribbon width. Many dispersionless Landau levels and parabolic energy bands exist along kx and kz directions respectively. The former are doubly degenerate, while state degeneracy is absent for the latter. The occupied valence bands are asymmetric to the unoccupied conduction bands about the Fermi level (EF). Such features are directly reflected in density of states (DOS). DOS exhibits a lot of asymmetric prominent peaks because of 1D curving bands. Meanwhile, the Landau-level energies following the simple relation Ec,v∝B are observed. The predicted magnetoelectronic properties could be examined by the experimental measurements on transport conductance and absorption spectra.

Related Topics
Physical Sciences and Engineering Engineering Electrical and Electronic Engineering
Authors
, , , ,