Add to ORKGПолный текст документа доступен пользователям сети БГУ.State of the art of research into processes and mechanisms of defect and track formation in fast ion irradiated materials is reviewed. It is shown that the nature and morphology of tracks depend on the type and structure of the material and on the amount of energy density transferred to its electronic subsystem. It is also shown that the relaxation of high electronic excitations dominates the track formation process. Discontinuous track formation mechanisms and those underlying the migration of atoms and channeling of ions in tracks are discussed
<p>A Simulation of the structure of damage arising from a single Fe ion particle traversal. The blac...
An overview is given about the strategies to create a novel Swift heavy Ion Track Electronics SIT...
The existing and future accelerator facilities at GSI and FAIR offer unique opportunities for interd...
Полный текст документа доступен пользователям сети БГУ.State of the art of research into processes a...
The energy loss of an MeV/amu ion to the electrons of a substance can be as great as keV/Å. With suc...
Swift heavy ions lose energy primarily by inelastic electronic scattering and, above an energy thres...
The formation of damage tracks in insulators from the passage of energetic (MeV/amu) ions indicates ...
Observations of GeV heavy ion and MeV cluster-ion tracks in crystalline solids give us new insight i...
The consequence of generation of dense electronic excitation along the paths of energetic heavy ions...
The energy dissipation and femtosecond dynamics due to fast heavy ions in matter is critically revi...
Detailed analysis of the morphology of latent tracks created by swift heavy ions from the surface en...
When energetic heavy ions penetrating solids, they release sufficient energy by electronic excitatio...
Track damage and the associated ejection of atoms and molecules from insulators, which occur as a re...
The purpose of this book is to provide students with a comprehensive overview of fundamental princip...
The developed theoretical model of track formation accounts for the influence of initial atomic disp...
<p>A Simulation of the structure of damage arising from a single Fe ion particle traversal. The blac...
An overview is given about the strategies to create a novel Swift heavy Ion Track Electronics SIT...
The existing and future accelerator facilities at GSI and FAIR offer unique opportunities for interd...
Полный текст документа доступен пользователям сети БГУ.State of the art of research into processes a...
The energy loss of an MeV/amu ion to the electrons of a substance can be as great as keV/Å. With suc...
Swift heavy ions lose energy primarily by inelastic electronic scattering and, above an energy thres...
The formation of damage tracks in insulators from the passage of energetic (MeV/amu) ions indicates ...
Observations of GeV heavy ion and MeV cluster-ion tracks in crystalline solids give us new insight i...
The consequence of generation of dense electronic excitation along the paths of energetic heavy ions...
The energy dissipation and femtosecond dynamics due to fast heavy ions in matter is critically revi...
Detailed analysis of the morphology of latent tracks created by swift heavy ions from the surface en...
When energetic heavy ions penetrating solids, they release sufficient energy by electronic excitatio...
Track damage and the associated ejection of atoms and molecules from insulators, which occur as a re...
The purpose of this book is to provide students with a comprehensive overview of fundamental princip...
The developed theoretical model of track formation accounts for the influence of initial atomic disp...
<p>A Simulation of the structure of damage arising from a single Fe ion particle traversal. The blac...
An overview is given about the strategies to create a novel Swift heavy Ion Track Electronics SIT...
The existing and future accelerator facilities at GSI and FAIR offer unique opportunities for interd...