Scientific understanding of any kind of radiation effects starts from the primary damage, ie
the defects that are produced right after an initial atomic displacement event initiated by a …

Polycyclic aromatic hydrocarbons (PAHs) have been the subject of interdisciplinary research
in the fields of chemistry, physics, materials science, and biology. Notably, PAHs have drawn …

A comparative molecular dynamics simulation study of collision cascades in two elemental
semiconductors and five fcc metals is performed to elucidate how different material …

This paper discusses the principles and experimental status of gas cluster ion beam (GCIB)
processing as a promising surface modification technique for practical industrial …

A number of vacancy and interstitial defect migration mechanisms are characterized for
crystalline silicon using supercells containing 64 and 216 atoms and a tight-binding …

Ion-beam-induced amorphization in Si has attracted significant interest since the beginning
of the use of ion implantation for the fabrication of Si devices. A number of theoretical …

Observations of topological defects associated with Stone-Wales-type transformations (ie,
bond rotations) in high-resolution transmission electron microscopy (HRTEM) images of …

Abstract In recent years Ion Beam Sputtering (IBS) has revealed itself as a powerful
technique to induce surface nanopatterns with a large number of potential applications …

We describe and test a novel molecular dynamics method which combines quantum-
mechanical embedding and classical force model optimization into a unified scheme free of …

We study the diffusion of point defects in crystalline methylammonium lead halide (MAPI) at
finite temperatures by using all-atoms molecular dynamics. We find that, for what concerns …