Title :
Analytical Modeling of Graphene Ribbons as Optical Circuit Elements
Author :
Khavasi, Amin ; Rejaei, Behzad
Author_Institution :
Dept. of Electr. Eng., Sharif Univ. of Technol., Tehran, Iran
Abstract :
We demonstrate that graphene ribbons can be modeled as circuit elements, which have dual capacitive-inductive nature. In the subwavelength regime, the surface current density on a single graphene ribbon subject to an incident p-polarized plane wave is derived analytically and then it is extended to coplanar arrays of graphene ribbons by applying perturbation theory. It is demonstrated that even isolated graphene ribbons have capacitive properties and the interaction between them in an array only changes the capacitance. Finally, we propose an accurate circuit model for the ribbon array by applying appropriate boundary conditions.
Keywords :
capacitance; current density; graphene; light polarisation; optical arrays; optical elements; perturbation theory; C; analytical modeling; boundary condition; circuit model; coplanar arrays; dual capacitive-inductive nature; graphene ribbon array; incident p-polarized plane wave; optical circuit elements; perturbation theory; subwavelength regime; surface current density; Admittance; Current density; Current distribution; Eigenvalues and eigenfunctions; Graphene; Integrated circuit modeling; Optical filters; Graphene ribbon; circuit modeling; nanostructures;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2014.2316133
