A semiclassical approach for modelling electron transport in quantum well structures is presented. The model is based on the balance equations governing the conservation of particle density, momentum and energy with Monte Carlo (MC) generated transport parameters. Three valleys of the conduction band, size quantization in the Γ valley, and the lowest two subbands in the quantum well are considered by taking the detailed intersubband dynamics into account. The transport parameters of the model are extracted from steady-state MC simulations based on an improved formulation of two-dimensional polar optical phonon scattering including screening effects. The predictions of the proposed model have been found to be in excellent agreement with thos...
A self-consistent Boltzmann-Poisson-Schrodinger simulator for High Electron Mobility Transistor is p...
Abstract. The classical hydrodynamic equations can be extended to include quantum effects by incorpo...
A new two-dimensional self-consistent numerical model for High Electron Mobility Transistor (HEMT) i...
A semiclassical approach for modelling electron transport in quantum well structures is presented. T...
The previous one-subband model is extended to include transport of electrons in the quantum well wit...
In Part I of this paper we reported a self-consistent Boltzmann-Schrodinger-Poisson simulator for HE...
A self-consistent full-quantum model in which the electrons in the second subband are treated as qua...
A Monte Carlo simulation of double‐quantum‐well (DQW) devices is presented in view of analyzing the ...
A reduced set of transport parameters is proposed for the collision terms of the three-valley hydrod...
Cataloged from PDF version of article.The effects of screening on the polar optical phonon scatterin...
A self-consistent Boltzmann-Poisson-Schrödinger solver for High Electron Mobility Transistor is pres...
A hot electron analytical model of quantum well high electron mobility transistor is proposed. Our m...
A fully quantum mechanical model for electron transport in quantum well infrared photodetectors is ...
In the modeling of modern semiconductor devices it is essential to incorporate quantum mechanical ph...
An inverse heterojunction field-effect transistor has been simulated by means of the Monte Carlo par...
A self-consistent Boltzmann-Poisson-Schrodinger simulator for High Electron Mobility Transistor is p...
Abstract. The classical hydrodynamic equations can be extended to include quantum effects by incorpo...
A new two-dimensional self-consistent numerical model for High Electron Mobility Transistor (HEMT) i...
A semiclassical approach for modelling electron transport in quantum well structures is presented. T...
The previous one-subband model is extended to include transport of electrons in the quantum well wit...
In Part I of this paper we reported a self-consistent Boltzmann-Schrodinger-Poisson simulator for HE...
A self-consistent full-quantum model in which the electrons in the second subband are treated as qua...
A Monte Carlo simulation of double‐quantum‐well (DQW) devices is presented in view of analyzing the ...
A reduced set of transport parameters is proposed for the collision terms of the three-valley hydrod...
Cataloged from PDF version of article.The effects of screening on the polar optical phonon scatterin...
A self-consistent Boltzmann-Poisson-Schrödinger solver for High Electron Mobility Transistor is pres...
A hot electron analytical model of quantum well high electron mobility transistor is proposed. Our m...
A fully quantum mechanical model for electron transport in quantum well infrared photodetectors is ...
In the modeling of modern semiconductor devices it is essential to incorporate quantum mechanical ph...
An inverse heterojunction field-effect transistor has been simulated by means of the Monte Carlo par...
A self-consistent Boltzmann-Poisson-Schrodinger simulator for High Electron Mobility Transistor is p...
Abstract. The classical hydrodynamic equations can be extended to include quantum effects by incorpo...
A new two-dimensional self-consistent numerical model for High Electron Mobility Transistor (HEMT) i...