Two-dimensional Schrodinger Scattering and Electron Transport in Graphene

Authors

Jonathan Blackledge, Technological University DublinFollow
Marek Rebow, Technological University DublinFollow

Document Type

Article

Rights

Available under a Creative Commons Attribution Non-Commercial Share Alike 4.0 International Licence

Disciplines

2. ENGINEERING AND TECHNOLOGY

Publication Details

Mathematica Aeterna, vol. 4

Abstract

Two-deimentional Born scatterin for the non-relativistic case is considered, the purpose being to investigate transport properties in mono-layer Graphene subject to an applied parallel electrical field. Solutions for the Probability Density Current (PDC) are obtained in the Fresnel zone which provides a model for simulating the PDC subject to membrane crumpling. In this context a Random Fractal Defect Model is considered which is used to assess the effect of (Fractal) crumpling on the PDC.

DOI

10.21427/D7FW4Q

Recommended Citation

Blackledge, J. & Rebow, M. (2014). Two-dimensional Schrodinger scattering and electron transport in graphene. Mathematic Aeterna, vol.4 (8), pp. 913-926. doi:10.21427/D7FW4Q