%0 Journal Article
%T Full-Wave Techniques for the Analysis of Electrodynamics and Coherent Quantum Transport in Graphene Nanodevices.
%A Luca Pierantoni
%J Carbon : Science and Technology
%D 2012
%I Applied Science Innovations Private Limited
%X We report on full-wave techniques in the frequency (energy)-domain and the time-domain, aimed at the investigation of the combined electromagnetic-coherent transport problem in carbon based nanostructured materials and devices viz. graphene nanoribbons. The frequency-domain approach is introduced in order to describe a Poisson-Schr dinger / Dirac system in a quasi static framework. Thetime-domain approach deals with the full-wave solution of the combined Maxwell-Schr dinger / Dirac system of equations. From the above theoretical platforms, home-made solvers are provided, aimed atdealing with challenging problems in realistic devices / systems environments, typical of the area of radio-frequency nanoelectronics.
%K Graphene
%K Quantum Coherent Transport
%K Electrodynamics
%U http://www.applied-science-innovations.com/cst-web-site/CST-4-1/CST%20-%2055.pdf