Add to ORKGA one-dimensional n-p-n BJT has been simulated by expanding the Boltzmann Transport Equation (BTE) in spherical harmonics. The solution provides the energy distribution of electrons as a function of position in the entire device with a reasonable CPU time. We compare the average velocity and energy with results of the hydrody-namic model.
this paper, we are concerned with two modern semiconductor models: the energy-transport and the quan...
We propose in the present work a numerical solution of the Boltzmann Transport Equation using Monte ...
Predictive semiconductor device simulation faces a challenge these days. As devices are scaled to na...
http://www.karlrupp.net/uni/master-spherical-harmonics-expansions.pdfDiese Arbeit handelt von der nu...
This paper first reviews some basic facts about electron transport in semiconductor materials. Then,...
Solution of Boltzmann equation by a spherical-harmonic expansion approach is a computationally-effi...
none3The solution method for the Boltzmann transport equation based on the spherical-harmonics expan...
This paper presents a novel numerical scheme applicable to the solution of the Boltzmann transport e...
The role of device design in the development of semiconductor technologies is an important one. To ...
AbstractA spherical harmonics expansion method of the Boltzmann Transport Equation (BTE) in the thre...
We perform a rigorous comparison between the Spherical Harmonic (SH) and Monte Carlo (MC) methods of...
Includes bibliographical references (p. 109-113).Supported by the U.S. Navy. N00174-93-C-0035Khalid ...
In this work, we present a general 2-dimensional spherical harmonic formulation of Boltz-mann's...
This work presents a microscopic simulation and modeling framework for the state-of-the-art toward-t...
The semiconductor Boltzmann equation is considered within a material with a space-dependent band cha...
this paper, we are concerned with two modern semiconductor models: the energy-transport and the quan...
We propose in the present work a numerical solution of the Boltzmann Transport Equation using Monte ...
Predictive semiconductor device simulation faces a challenge these days. As devices are scaled to na...
http://www.karlrupp.net/uni/master-spherical-harmonics-expansions.pdfDiese Arbeit handelt von der nu...
This paper first reviews some basic facts about electron transport in semiconductor materials. Then,...
Solution of Boltzmann equation by a spherical-harmonic expansion approach is a computationally-effi...
none3The solution method for the Boltzmann transport equation based on the spherical-harmonics expan...
This paper presents a novel numerical scheme applicable to the solution of the Boltzmann transport e...
The role of device design in the development of semiconductor technologies is an important one. To ...
AbstractA spherical harmonics expansion method of the Boltzmann Transport Equation (BTE) in the thre...
We perform a rigorous comparison between the Spherical Harmonic (SH) and Monte Carlo (MC) methods of...
Includes bibliographical references (p. 109-113).Supported by the U.S. Navy. N00174-93-C-0035Khalid ...
In this work, we present a general 2-dimensional spherical harmonic formulation of Boltz-mann's...
This work presents a microscopic simulation and modeling framework for the state-of-the-art toward-t...
The semiconductor Boltzmann equation is considered within a material with a space-dependent band cha...
this paper, we are concerned with two modern semiconductor models: the energy-transport and the quan...
We propose in the present work a numerical solution of the Boltzmann Transport Equation using Monte ...
Predictive semiconductor device simulation faces a challenge these days. As devices are scaled to na...