Magnetic Field Effects on Charge and Current Density in Finite Monolayer Graphene

Carlos Jose Paez Gonzalez; Jorge Hernan  Quintero Orozco; Andrés Camilo  García Castro

doi:10.22395/rium.v20n39a14

Magnetic Field Effects on Charge and Current Density in Finite Monolayer Graphene

Author details

Carlos Jose Paez Gonzalez | Bio
Universidad Industrial de Santander

Jorge Hernan Quintero Orozco | Bio
Universidad Industrial de Santander

Andrés Camilo García Castro | Bio
Universidad Industrial de Santander

Keywords:

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Articles
DOI: https://doi.org/10.22395/rium.v20n39a14
Submitted: December 1, 2019
Published: June 16, 2021

Abstract

In this work, we study the effects of an external magnetic field on the charge and current density in finite monolayer graphene, i.e., with zig-zag and armchair edges. We use the tight-binding model to include the effects of the magnetic field and the effect of the edges. By using the transmission probability and analyzing the local density of states (charge density) ob- tained from Green’s function method, we find an energy region where the wave functions are more localized in the edges and, consequently, the current flow across the borders. On the other hand, for energies close to Landau levels, the charge and current density are localized on the bulk of the system.

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References

Fransisco Russi (lfragar@gmail.com)
Hamilton Carrillo (hacarrillo@gmail.com )
Harold Paredes (hparedes@uis.edu.co)

How to Cite

Paez Gonzalez, C. J., Quintero Orozco, J. H., & García Castro, A. C. (2021). Magnetic Field Effects on Charge and Current Density in Finite Monolayer Graphene. Revista Ingenierías Universidad De Medellín, 20(39), 251-261. https://doi.org/10.22395/rium.v20n39a14