Title of article
A deterministic solver for a hybrid quantum-classical transport model in nanoMOSFETs
Author/Authors
Ben Abdallah، نويسنده , , N. and Cلceres، نويسنده , , M.J. and Carrillo، نويسنده , , J.A. and Vecil، نويسنده , , F.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2009
Pages
19
From page
6553
To page
6571
Abstract
We model a nanoMOSFET by a mesoscopic, time-dependent, coupled quantum-classical system based on a sub-band decomposition and a simple scattering operator. We first compute the sub-band decomposition and electrostatic force field described by a Schrödinger–Poisson coupled system solved by a Newton–Raphson iteration using the eigenvalue/eigenfunction decomposition. The transport in the classical direction for each sub-band modeled by semiclassical Boltzmann-type equations is solved by conservative semi-lagrangian characteristic-based methods. Numerical results are shown for both the thermodynamical equilibrium and time-dependent simulations in typical nowadays nanoMOSFETs.
Keywords
Sub-band decomposition , Quantum-classical dimensional coupling , Schr?dinger–Poisson system , PWENO interpolations , Semi-Lagrangian methods
Journal title
Journal of Computational Physics
Serial Year
2009
Journal title
Journal of Computational Physics
Record number
1481739
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