Litcius/Paper detail

Transmission in Graphene through Tilted Barrier in Laser Field

Rachid El Aitouni, Miloud Mekkaoui, Ahmed Jellal

2023Annalen der Physik11 citationsDOIOpen Access PDF

Abstract

Abstract The transmission of Dirac fermions in graphene through a tilted barrier potential in the presence of a laser field of frequency ω is studied. By using Floquet theory, the Dirac equation is solved and then the energy spectrum is obtained. The boundary conditions together with the transfer matrix method allow to determine the transmission probabilities corresponding to all energy bands . By limiting to the central band and the two first side bands , it is shown that the transmissions are strongly affected by the laser field and barrier. Indeed, it is found that the Klein effect is still present, a variety of oscillations are inside the barrier, and there is essentially no transmission across all bands.

Topics & Concepts

Floquet theoryGraphenePhysicsTransfer matrixField (mathematics)Transmission (telecommunications)LaserDirac (video compression format)Condensed matter physicsDirac equationRectangular potential barrierLimitingBoundary value problemQuantum mechanicsNonlinear systemTelecommunicationsPure mathematicsNeutrinoMechanical engineeringComputer scienceComputer visionEngineeringMathematicsGraphene research and applicationsCarbon Nanotubes in CompositesQuantum Mechanics and Applications