We present a coupled Maxwell-Schrodinger technique with the aim to analyze the electromagnetic field dynamics together with the quantum phenomena of carbon nanotubes. The Maxwell equations, discretized by the Transmission Line Method in a three-dimensional domain, are coupled to the Schrodinger equation and simultaneously solved. We study the dynamic of a charge wavepacket along a nanotube also in the case of an applied bias voltage
A new hybrid Transmission Line Matrix-Finite Difference technique for the coupled Maxwell-Schrödinger problem in the full-wave characterization of nanodevices
PIERANTONI, Luca;MENCARELLI, Davide;ROZZI, TULLIO
2007-01-01
Abstract
We present a coupled Maxwell-Schrodinger technique with the aim to analyze the electromagnetic field dynamics together with the quantum phenomena of carbon nanotubes. The Maxwell equations, discretized by the Transmission Line Method in a three-dimensional domain, are coupled to the Schrodinger equation and simultaneously solved. We study the dynamic of a charge wavepacket along a nanotube also in the case of an applied bias voltageFile in questo prodotto:
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