Effect of boundary treatments on quantum transport current in the Green's function and Wigner distribution methods for a nano-scale DG-MOSFET
From MaRDI portal
Publication:975120
DOI10.1016/J.JCP.2010.02.008zbMath1191.82042OpenAlexW2029410643MaRDI QIDQ975120
Publication date: 8 June 2010
Published in: Journal of Computational Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jcp.2010.02.008
Statistical mechanics of semiconductors (82D37) Transport processes in time-dependent statistical mechanics (82C70) Statistical mechanics of nanostructures and nanoparticles (82D80)
Related Items (5)
A device adaptive inflow boundary condition for Wigner equations of quantum transport ⋮ Accuracy of the Frensley inflow boundary condition for Wigner equations in simulating resonant tunneling diodes ⋮ On an algorithm for finding the electric potential distribution in the DG-MOSFET transistor ⋮ A new approach to numerical simulation of charge transport in double gate-MOSFET ⋮ A hybrid sinc-Galerkin/finite-difference method for the time-dependent Wigner equation
Cites Work
- Unnamed Item
- Subband decomposition approach for the simulation of quantum electron transport in nanostructures
- Boundary treatments in non-equilibrium Green's function (NEGF) methods for quantum transport in nano-MOSFETs
- Electron dynamics inside short-coherence systems
- A Spectral Collocation Technique for the Solution of the Wigner–Poisson Problem
- Adaptive Conservative Cell Average Spectral Element Methods for Transient Wigner Equation in Quantum Transport
This page was built for publication: Effect of boundary treatments on quantum transport current in the Green's function and Wigner distribution methods for a nano-scale DG-MOSFET
