N. Sule, K. J. Willis, S. C. Hagness, I. Knezevic
Published 2014-05-20Version 1
We present the implementation and application of a multiphysics simulation technique to carrier dynamics under electromagnetic excitation in supported two-dimensional electronic systems. The technique combines ensemble Monte Carlo (EMC) for carrier transport with finite-difference time-domain (FDTD) for electrodynamics and molecular dynamics (MD) for short-range Coulomb interactions among particles. We demonstrate the use of this EMC/FDTD/MD technique by calculating the room-temperature dc and ac conductivity of graphene supported on SiO2.
Comments: Part of JCEL special issue on Multiscale and Multiphysics Modeling
Journal: J. Comput. Electron. 12, 563 (2013)
Quantum Monte-Carlo method without negative-sign problem for two-dimensional electron systems under strong magnetic fields
Spin-Hall Effect in Two-Dimensional Electron Systems with Rashba Spin-Orbit Coupling and Disorder
Carrier Transport in Heterojunction Nanocrystals Under Strain
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