Add to ORKGThis thesis is organized as follows: • In chapter 2, our present understanding of the silicon vacancy and of the self-diffusion process is shortly reviewed. • In chapter 3 the First Principles Molecular Dynamics method is illustrated and discussed. • In chapter 4 the method used to compute the vacancy concentration is exposed. • In chapter 5 the results of calculations of the vacancy concentration and of the vacancy induced self-diffusion are exposed and compared with the available experimental data. • In the last chapter we present our conclusions
The thermodynamic integration method has been incorporated into the tight-binding molecular-dynamics...
Atomistic simulation of a vacancy-assisted dopant diffusion in silicon needs details of the dopant-v...
By means of density-functional based tight-binding molecular-dynamics (DF-TBMD) simulations, we inve...
Molecular dynamics simulation of vacancy and self-interstitial atoms in silicon crystals was carried...
Transition state theory (TST) is the most widely used formalism for theoretical calculations of diff...
Transition state theory (TST) is the most widely used formalism for theoretical calculations of diff...
The thermodynamic integration method has been incorporated into the tight-binding molecular-dynamics...
The thermodynamic integration method has been incorporated into the tight-binding molecular-dynamics...
The crystalline structure surrounding a single neutral vacancy in silicon is investigated through ex...
The complete set of the four macroscopic transport coefficients describing the coupled diffusion of ...
A computational framework is presented for describing the nucleation and growth of vacancy clusters ...
10.1103/PhysRevB.76.033303Physical Review B - Condensed Matter and Materials Physics763-PRBM
Transition state theory (TST) is the most widely used formalism for theoretical calculations of dius...
The current understanding of dopant diffusion in silicon comes from the synthesis of experimental an...
By means of density-functional based tight-binding molecular-dynamics (DF-TBMD) simulations, we inve...
The thermodynamic integration method has been incorporated into the tight-binding molecular-dynamics...
Atomistic simulation of a vacancy-assisted dopant diffusion in silicon needs details of the dopant-v...
By means of density-functional based tight-binding molecular-dynamics (DF-TBMD) simulations, we inve...
Molecular dynamics simulation of vacancy and self-interstitial atoms in silicon crystals was carried...
Transition state theory (TST) is the most widely used formalism for theoretical calculations of diff...
Transition state theory (TST) is the most widely used formalism for theoretical calculations of diff...
The thermodynamic integration method has been incorporated into the tight-binding molecular-dynamics...
The thermodynamic integration method has been incorporated into the tight-binding molecular-dynamics...
The crystalline structure surrounding a single neutral vacancy in silicon is investigated through ex...
The complete set of the four macroscopic transport coefficients describing the coupled diffusion of ...
A computational framework is presented for describing the nucleation and growth of vacancy clusters ...
10.1103/PhysRevB.76.033303Physical Review B - Condensed Matter and Materials Physics763-PRBM
Transition state theory (TST) is the most widely used formalism for theoretical calculations of dius...
The current understanding of dopant diffusion in silicon comes from the synthesis of experimental an...
By means of density-functional based tight-binding molecular-dynamics (DF-TBMD) simulations, we inve...
The thermodynamic integration method has been incorporated into the tight-binding molecular-dynamics...
Atomistic simulation of a vacancy-assisted dopant diffusion in silicon needs details of the dopant-v...
By means of density-functional based tight-binding molecular-dynamics (DF-TBMD) simulations, we inve...