We have examined cosmic ray interactions with silicate dust grains by simulating a thermal spike in a 1.25 million atom forsterite (Mg2SiO4) crystal with periodic boundaries. Spikes were generated by giving a kinetic energy of 1 or 2 eV to every atom within a cylinder of radius 1.73 nm along the [001] direction. An amorphous track of radius ~3 nm was produced for the 2 eV/atom case, but practically no amorphization was produced for 1 eV/atom because of effective dynamic annealing. Chemical segregation was not observed in the track. These results agree with recent experimental studies of ion irradiation effects in silicates, and indicate that cosmic rays can cause the amorphization of interstellar dust.
Revised: May 11, 2007 |
Published: February 16, 2007
Citation
Devanathan R., P. Durham, J. Du, L.R. Corrales, and E.M. Bringa. 2007.Molecular dynamics simulation of amorphization in forsterite by cosmic rays.Nuclear Instruments and Methods in Physics Research. Section B, Beam Interactions with Materials and Atoms 255, no. 1:172-176.PNNL-SA-55042.doi:10.1016/j.nimb.2006.11.021