Add to ORKGThe question of possibility to build additional entropy conservation law for the system of moment equations, which appear in mathematical modelling of the charge transport in semiconductors, is discussed. Introduction. It is well known that so called hydrodynamic models are widely used nowadays in mathematical modelling of the physical phenomena related to charge transport in semiconductors. Last years, a lot of new mathematical models of hydrodynamic type were proposed for describing similar phenomena
Balance equations based on the moment method for the transport of electrons in silicon semiconductor...
Abstract. Enhanced functional integration in modern electron devices requires an accurate modeling o...
AbstractIn this paper, the Cauchy problem of the isothermal hydrodynamic model for semiconductor dev...
The Blotekjaer hydrodynamical model for charge carriers transport in semiconductors is reconsidered ...
The question of possibility to build additional entropy conservation law for the system of moment eq...
Abstract. A hydrodynamical model based on the theory of extended thermodynamics is presented for car...
In the last two decades, the Maximum Entropy Principle (MEP) has been successfully employed to const...
The hydrodynamic model for semiconductors includes equations of continuity for the carrier number, a...
We investigate aspects of entropy-based moment closures which are used to simplify kinetic models of...
A thermodynamic derivation is given of the hydrodynamical model describing charge-carrier transport ...
We derive, using the Entropy Maximum Principle, an expression for the distribution function of carri...
Dedicated to Professor Constantine Dafermos for his sixtith birthday We review recent results on the...
Abstract In this paper we present exact closures of the 8-moment and the 9-moment models for the cha...
By extending the maximum entropy principle within a scheme in total average energy we obtain a close...
The hydrodynamic model for semiconductor devices plays an important role in simulating the behavior ...
Balance equations based on the moment method for the transport of electrons in silicon semiconductor...
Abstract. Enhanced functional integration in modern electron devices requires an accurate modeling o...
AbstractIn this paper, the Cauchy problem of the isothermal hydrodynamic model for semiconductor dev...
The Blotekjaer hydrodynamical model for charge carriers transport in semiconductors is reconsidered ...
The question of possibility to build additional entropy conservation law for the system of moment eq...
Abstract. A hydrodynamical model based on the theory of extended thermodynamics is presented for car...
In the last two decades, the Maximum Entropy Principle (MEP) has been successfully employed to const...
The hydrodynamic model for semiconductors includes equations of continuity for the carrier number, a...
We investigate aspects of entropy-based moment closures which are used to simplify kinetic models of...
A thermodynamic derivation is given of the hydrodynamical model describing charge-carrier transport ...
We derive, using the Entropy Maximum Principle, an expression for the distribution function of carri...
Dedicated to Professor Constantine Dafermos for his sixtith birthday We review recent results on the...
Abstract In this paper we present exact closures of the 8-moment and the 9-moment models for the cha...
By extending the maximum entropy principle within a scheme in total average energy we obtain a close...
The hydrodynamic model for semiconductor devices plays an important role in simulating the behavior ...
Balance equations based on the moment method for the transport of electrons in silicon semiconductor...
Abstract. Enhanced functional integration in modern electron devices requires an accurate modeling o...
AbstractIn this paper, the Cauchy problem of the isothermal hydrodynamic model for semiconductor dev...