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The downscaling of electronic devices has reached a regime where quantum and atomistic effects govern the active part of the device while semi-classical physics still plays a very important role for the remaining parts. A multiscale transport simulation approach is therefore developed in NEMO5 tool to address this issue. In this approach, nonequilibrium Green's function (NEGF) equations with atomistic...
Two widely used algorithms in computational electromagnetics (CEM) society, namely the asymptotic waveform evaluation (AWE) technique and the model order reduction (MOR) mode matching method, are employed to calculate electron wave propagation in novel nanoelectronic devices.
Quantum–mechanical modeling of ballistic transport in nanodevices usually requires solving the Schrödinger equation at multiple energy points within an energy band. To speed up the simulation and analysis, the asymptotic waveform evaluation is introduced in this paper. Using this method, the wave function is only rigorously solved at several sampled energy points, whereas those at other energies are...
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