The advancement of nanoelectronics depends on the progress of technology, but it also relies on the understanding of multiphysics phenomena at the nanoscale. We present a full-wave technique aimed at modeling the combined electromagnetic/coherent transport problem in graphene structures. The quantum transport is described by the Dirac equation, providing a pseudo-spinor solution for the wave-function. We show the dynamics of a charge wavepacket in a graphene nanoribbon transistor environment
Modeling of the electromagnetic/coherent transport problem in nano-structured materials, devices and systems using combined TLM-FDTD techniques
Pierantoni L.
;Mencarelli D.;Rozzi T.
2011-01-01
Abstract
The advancement of nanoelectronics depends on the progress of technology, but it also relies on the understanding of multiphysics phenomena at the nanoscale. We present a full-wave technique aimed at modeling the combined electromagnetic/coherent transport problem in graphene structures. The quantum transport is described by the Dirac equation, providing a pseudo-spinor solution for the wave-function. We show the dynamics of a charge wavepacket in a graphene nanoribbon transistor environmentFile in questo prodotto:
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