Computer simulation of the penetration of low-energy Kr ions into single-crystal tungsten

1 November 1971

journal article
Published by IOP Publishing in Journal of Physics D: Applied Physics

Vol. 4 (11) , 1681-1686
https://doi.org/10.1088/0022-3727/4/11/310

Abstract

Computers have been used to follow the trajectory of Kr ions striking a simulated tungsten single crystal. The crystal faces chosen were the (100) and (110) and the effect of the second plane of atoms below the surface was included. From a study of the ion trajectories, probability of ion penetration into the surface was determined and values are compared with experimental data.

Keywords

This publication has 8 references indexed in Scilit:

Thermal Release of Inert Gases from (110) and (211) Tungsten Surfaces
Journal of Applied Physics, 1969
Born-Mayer-Type Interatomic Potential for Neutral Ground-State Atoms with $Z = 2$ to $Z = 105$
Physical Review B, 1969
Penetration and capture of low-energy inert gas ions in polycrystalline tungsten
Journal of Physics D: Applied Physics, 1968
Ion reflection from a single crystal
Canadian Journal of Physics, 1968
ANOMALOUS PENETRATION OF XENON IN TUNGSTEN CRYSTALS—A DIFFUSION EFFECT
Canadian Journal of Physics, 1966
Machine Simulation of Collisions Between a Copper Atom and a Copper Lattice
Physical Review B, 1964
Ranges of Energetic Atoms in Solids
Journal of Applied Physics, 1963
Dynamics of Radiation Damage
Physical Review B, 1960