A thermodynamic derivation is given of the hydrodynamical model describing charge-carrier transport in semiconductors. The set of moment equations is closed by utilizing the principles of extended thermodynamics. The method of Maxwellian iteraton yields, then, hydrodynamical-like equations with constitutive equations for the heat flux and anisotropic stresses
AbstractIn this article, we present a theoretical foundation for tail electron hydrodynamical models...
Dedicated to Professor Constantine Dafermos for his sixtith birthday We review recent results on the...
Semiconductor devices are ubiquitous in the modern computer and telecommunications industry. A preci...
Abstract. A hydrodynamical model based on the theory of extended thermodynamics is presented for car...
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...
We derive, using the Entropy Maximum Principle, an expression for the distribution function of carri...
Abstract. Enhanced functional integration in modern electron devices requires an accurate modeling o...
The hydrodynamic model for semiconductors includes equations of continuity for the carrier number, a...
Two thermodynamic models of semiconductor device are considered. The first one takes into account th...
The hydrodynamic model for semiconductor devices plays an important role in simulating the behavior ...
AbstractThe usual drift diffusion equation is not suitable to model hot electrons transport in semic...
Two hydrodynamic models for a non-parabolic band structure are proposed in order to obtain closed se...
In the last two decades, the Maximum Entropy Principle (MEP) has been successfully employed to const...
In this paper, we treat the closure relations of hydrodynamical models in ...
AbstractIn this article, we present a theoretical foundation for tail electron hydrodynamical models...
Dedicated to Professor Constantine Dafermos for his sixtith birthday We review recent results on the...
Semiconductor devices are ubiquitous in the modern computer and telecommunications industry. A preci...
Abstract. A hydrodynamical model based on the theory of extended thermodynamics is presented for car...
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...
We derive, using the Entropy Maximum Principle, an expression for the distribution function of carri...
Abstract. Enhanced functional integration in modern electron devices requires an accurate modeling o...
The hydrodynamic model for semiconductors includes equations of continuity for the carrier number, a...
Two thermodynamic models of semiconductor device are considered. The first one takes into account th...
The hydrodynamic model for semiconductor devices plays an important role in simulating the behavior ...
AbstractThe usual drift diffusion equation is not suitable to model hot electrons transport in semic...
Two hydrodynamic models for a non-parabolic band structure are proposed in order to obtain closed se...
In the last two decades, the Maximum Entropy Principle (MEP) has been successfully employed to const...
In this paper, we treat the closure relations of hydrodynamical models in ...
AbstractIn this article, we present a theoretical foundation for tail electron hydrodynamical models...
Dedicated to Professor Constantine Dafermos for his sixtith birthday We review recent results on the...
Semiconductor devices are ubiquitous in the modern computer and telecommunications industry. A preci...
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