Add to ORKGIn this article, we propose a new numerical model for computation of the transport of electrons in a graphene device. The underlying quantum model for graphene is a massless Dirac equation, whose eigenvalues display a conical singularity responsible for non adiabatic transitions between the two modes. We first derive a kinetic model which takes the form of two Boltzmann equations coupled by a collision operator modeling the non-adiabatic transitions. This collision term includes a Landau-Zener transfer term and a jump operator whose presence is essential in order to ensure a good energy conservation during the transitions. We propose an algorithmic realization of the semi-group solving the kinetic model, by a particle method. We give analyt...
In this paper we study thermo-electric transport in interacting two-dimensional Dirac-type systems u...
Charge transport in graphene is crucial for the design of a new generation of nanoscale electron dev...
Deterministic numerical methods developed for solving Boltzmann-Poisson systems of carriers and phon...
In this article, we propose a new numerical model for computation of the transport of electrons in a...
Semi-classical hydrodynamic models for charge transport in graphene have been presented. They are de...
We investigate the simulations of the the Schrödinger equation using the onedimensional quantum latt...
The aim of this work is to compare, in monolayer graphene, solutions of the electron Boltzmann equat...
The effective mass approximation is analysed in a nonperturbative kinetic theory approach to strong ...
The formalism of the nonperturbative description of transport phenomena in graphene in the framework...
International audienceWe present and analyze two mathematical models for the self consistent quantum...
In this thesis, we investigate charge transport in graphene. Graphene is one of the most important n...
Item does not contain fulltextThe chapter presents a theory of electron transport in graphene and di...
A Lagrangian surface hopping algorithm is implemented to study the two dimensional massless Dirac eq...
We present and discuss in detail practical techniques in formulating effective models to describe th...
In the presented thesis we study the proton neutralization in transmission through graphene. In this...
In this paper we study thermo-electric transport in interacting two-dimensional Dirac-type systems u...
Charge transport in graphene is crucial for the design of a new generation of nanoscale electron dev...
Deterministic numerical methods developed for solving Boltzmann-Poisson systems of carriers and phon...
In this article, we propose a new numerical model for computation of the transport of electrons in a...
Semi-classical hydrodynamic models for charge transport in graphene have been presented. They are de...
We investigate the simulations of the the Schrödinger equation using the onedimensional quantum latt...
The aim of this work is to compare, in monolayer graphene, solutions of the electron Boltzmann equat...
The effective mass approximation is analysed in a nonperturbative kinetic theory approach to strong ...
The formalism of the nonperturbative description of transport phenomena in graphene in the framework...
International audienceWe present and analyze two mathematical models for the self consistent quantum...
In this thesis, we investigate charge transport in graphene. Graphene is one of the most important n...
Item does not contain fulltextThe chapter presents a theory of electron transport in graphene and di...
A Lagrangian surface hopping algorithm is implemented to study the two dimensional massless Dirac eq...
We present and discuss in detail practical techniques in formulating effective models to describe th...
In the presented thesis we study the proton neutralization in transmission through graphene. In this...
In this paper we study thermo-electric transport in interacting two-dimensional Dirac-type systems u...
Charge transport in graphene is crucial for the design of a new generation of nanoscale electron dev...
Deterministic numerical methods developed for solving Boltzmann-Poisson systems of carriers and phon...