Add to ORKGVacancies and self-interstitial defects in silicon are here investigated by means of semi-empirical quantum molecular dynamics simulations performed within the tight-binding model. We extensively discuss the process of formation and migration of native point defects and investigate their interaction and clustering phenomena. The formation of larger stable structures is further studied by combining tight-binding and Monte Carlo simulations. Tight-binding simulation results provide a global picture for defect-induced microstructure evolution in bulk silicon. These results are consistent with state-of- the-art experimental data and elucidate many relevant atomic-scale mechanisms
As the device dimension in semiconductor silicon transistors reach sub-20nm, it significantly enhanc...
As the device dimension in semiconductor silicon transistors reach sub-20nm, it significantly enhanc...
Molecular dynamics simulations of a dislocation based mechanism for void formation in silicon are pr...
Vacancies and self-interstitial defects in silicon are here investigated by means of semi-empirical ...
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...
By using tight-binding molecular dynamics with Fermi operator expansion, we study vacancy defects in...
Summary External stress on a crystal a®ects the Gibbs free energy of formation and migration of poin...
Molecular dynamics simulation of vacancy and self-interstitial atoms in silicon crystals was carried...
As the device dimension in semiconductor silicon transistors reach sub-20nm, it significantly enhanc...
This thesis is organized as follows: • In chapter 2, our present understanding of the silicon vacan...
As the device dimension in semiconductor silicon transistors reach sub-20nm, it significantly enhanc...
International audienceA first principles study of the defects generated by displacement cascades fro...
International audienceA first principles study of the defects generated by displacement cascades fro...
International audienceA first principles study of the defects generated by displacement cascades fro...
As the device dimension in semiconductor silicon transistors reach sub-20nm, it significantly enhanc...
As the device dimension in semiconductor silicon transistors reach sub-20nm, it significantly enhanc...
Molecular dynamics simulations of a dislocation based mechanism for void formation in silicon are pr...
Vacancies and self-interstitial defects in silicon are here investigated by means of semi-empirical ...
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...
By using tight-binding molecular dynamics with Fermi operator expansion, we study vacancy defects in...
Summary External stress on a crystal a®ects the Gibbs free energy of formation and migration of poin...
Molecular dynamics simulation of vacancy and self-interstitial atoms in silicon crystals was carried...
As the device dimension in semiconductor silicon transistors reach sub-20nm, it significantly enhanc...
This thesis is organized as follows: • In chapter 2, our present understanding of the silicon vacan...
As the device dimension in semiconductor silicon transistors reach sub-20nm, it significantly enhanc...
International audienceA first principles study of the defects generated by displacement cascades fro...
International audienceA first principles study of the defects generated by displacement cascades fro...
International audienceA first principles study of the defects generated by displacement cascades fro...
As the device dimension in semiconductor silicon transistors reach sub-20nm, it significantly enhanc...
As the device dimension in semiconductor silicon transistors reach sub-20nm, it significantly enhanc...
Molecular dynamics simulations of a dislocation based mechanism for void formation in silicon are pr...