The single-particle Monte Carlo simulation for the electron transport in semiconductor devices is presented. The Monte Carlo method is briefly compared with alternative theoretical techniques. Flowchart of the simulation program is given and selections of free flight time, scattering mechanism and electron wave vector are explained. Determination of mean electron velocity and energy is presented
We propose in the present work a numerical solution of the Boltzmann Transport Equation using Monte ...
Within the context of higher education for science or engineering undergraduates, we present an inqu...
Within the context of higher education for science or engineering undergraduates, we present an inqu...
The theory of electron transport in semiconductors is traditionally formulated in terms of the semic...
The theory of electron transport in semiconductors is traditionally formulated in terms of the semic...
The contribution is mainly related to advanced problems in Monte Carlo simulations. The first sectio...
The contribution is mainly related to advanced problems in Monte Carlo simulations. The first sectio...
We present a dedicated integrated circuit for the simulation of charged particles based on Monte Car...
We present a dedicated integrated circuit for the simulation of charged particles based on Monte Car...
The Monte Carlo method is a very general mathematical tool for the solution of a large variety of pr...
The Monte Carlo method is a very general mathematical tool for the solution of a large variety of pr...
A self-consistent Monte Carlo particle model aimed at a profound physical understanding of small sem...
A critical review of the Monte Carlo simulation as applied to semiconductor device modelling is pres...
The book contains all the information considered necessary to set up a Monte Carlo simulator of an e...
The book contains all the information considered necessary to set up a Monte Carlo simulator of an e...
We propose in the present work a numerical solution of the Boltzmann Transport Equation using Monte ...
Within the context of higher education for science or engineering undergraduates, we present an inqu...
Within the context of higher education for science or engineering undergraduates, we present an inqu...
The theory of electron transport in semiconductors is traditionally formulated in terms of the semic...
The theory of electron transport in semiconductors is traditionally formulated in terms of the semic...
The contribution is mainly related to advanced problems in Monte Carlo simulations. The first sectio...
The contribution is mainly related to advanced problems in Monte Carlo simulations. The first sectio...
We present a dedicated integrated circuit for the simulation of charged particles based on Monte Car...
We present a dedicated integrated circuit for the simulation of charged particles based on Monte Car...
The Monte Carlo method is a very general mathematical tool for the solution of a large variety of pr...
The Monte Carlo method is a very general mathematical tool for the solution of a large variety of pr...
A self-consistent Monte Carlo particle model aimed at a profound physical understanding of small sem...
A critical review of the Monte Carlo simulation as applied to semiconductor device modelling is pres...
The book contains all the information considered necessary to set up a Monte Carlo simulator of an e...
The book contains all the information considered necessary to set up a Monte Carlo simulator of an e...
We propose in the present work a numerical solution of the Boltzmann Transport Equation using Monte ...
Within the context of higher education for science or engineering undergraduates, we present an inqu...
Within the context of higher education for science or engineering undergraduates, we present an inqu...
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