Fano resonances in hexagonal zigzag graphene rings under external magnetic flux

Faria, D., R. Carrillo-Bastos, N. Sandler, and A. Latgé. 2015. “Fano Resonances in Hexagonal Zigzag Graphene Rings under External Magnetic Flux”. Journal of Physics: Condensed Matter.

Abstract

We study transport properties of hexagonal zigzag graphene quantum rings connected to semi-infinite nanoribbons. Open two-fold symmetric structures support localized states that can be traced back to those existing in the isolated six-fold symmetric rings. Using a tight-binding Hamiltonian within the Green's function formalism, we show that an external magnetic field promotes these localized states to Fano resonances with robust signatures in transport. Local density of states and current distributions of the resonant states are calculated as a function of the magnetic flux intensity. For structures on corrugated substrates we analyze the effect of strain by including an out-of-plane centro-symmetric deformation in the model. We show that small strains shift the resonance positions without further modifications, while high strains introduce new ones.

Last updated on 09/21/2024