Add to ORKGUnderstanding radiation induced ultrafast melting at material interfaces is essential in designing robust electronic devices for aviation/space applications and in laser machining. While it is difficult to achieve the spatial and temporal resolution required to quantify the phenomenon experimentally, simulations can provide the detailed mechanisms of the structural changes that happen during phase transition. In this work, we use molecular simulations to study the effect of radiation damage on silicon carbide (SiC) - tungsten (W) interfaces which is of interest in high power electronics. A multi-scale approach is involved wherein the reactions at the interfaces are quantified using ab-initio molecular dynamics (MD) simulations and classical...
Silicon carbide (SiC) semiconductor device is expected to be used under a severe environment like th...
The purpose of this book is to provide students with a comprehensive overview of fundamental princip...
In this paper, the radiation effects of 1MeV protons on hydrogenated amorphous SiC films are studied...
Radiation can drive the electrons in a material out of thermal equilibrium with the nuclei, producin...
We discuss results of molecular dynamics computer simulation studies of 3 keV and 5 keV displacement...
The prospect of using computer simulations to calculate radiation-induced defect production and its ...
When semiconductor materials are exposed to radiation fields, cascade collision effects may form bet...
AbstractWe discuss molecular dynamics (MD) simulations of high-energy radiation damage in materials ...
We discuss molecular dynamics (MD) simulations of high-energy radiation damage in materials relevant...
Cu-diamond composites have been proposed as a candidate thermal management material for spacecraft e...
The behaviour of silicon carbide under irradiation has been studied using classical and ab initio si...
Materials exposed to extreme radiation environments such as fusion reactors or deep spaces accumulat...
Intense ultrashort laser pulses can melt crystals in less than a picosecond but, in spite of over th...
Swift heavy ions induce a high density of electronic excitations that can cause the formation of amo...
SiC devices have been typically subjected to extreme environments and complex stresses during operat...
Silicon carbide (SiC) semiconductor device is expected to be used under a severe environment like th...
The purpose of this book is to provide students with a comprehensive overview of fundamental princip...
In this paper, the radiation effects of 1MeV protons on hydrogenated amorphous SiC films are studied...
Radiation can drive the electrons in a material out of thermal equilibrium with the nuclei, producin...
We discuss results of molecular dynamics computer simulation studies of 3 keV and 5 keV displacement...
The prospect of using computer simulations to calculate radiation-induced defect production and its ...
When semiconductor materials are exposed to radiation fields, cascade collision effects may form bet...
AbstractWe discuss molecular dynamics (MD) simulations of high-energy radiation damage in materials ...
We discuss molecular dynamics (MD) simulations of high-energy radiation damage in materials relevant...
Cu-diamond composites have been proposed as a candidate thermal management material for spacecraft e...
The behaviour of silicon carbide under irradiation has been studied using classical and ab initio si...
Materials exposed to extreme radiation environments such as fusion reactors or deep spaces accumulat...
Intense ultrashort laser pulses can melt crystals in less than a picosecond but, in spite of over th...
Swift heavy ions induce a high density of electronic excitations that can cause the formation of amo...
SiC devices have been typically subjected to extreme environments and complex stresses during operat...
Silicon carbide (SiC) semiconductor device is expected to be used under a severe environment like th...
The purpose of this book is to provide students with a comprehensive overview of fundamental princip...
In this paper, the radiation effects of 1MeV protons on hydrogenated amorphous SiC films are studied...