Molecular dynamics simulations are performed to investigate the mutual influence of two subsequent cascades in tungsten. The influence is studied using 20-keV primary knock-on atoms, to induce one cascade after another separated by 15 ps, in a lattice temperature of 1025 K (i.e. 0.25 of the melting temperature of the interatomic potential). The center of mass of the vacancies at the peak damage during the cascade is taken as the location of the cascade. The distance between this location to that of the next cascade is taken as the overlap parameter. Empirical fits describing the number of surviving vacancies and interstitial atoms as a function of overlap are presented.
Revised: May 7, 2015 |
Published: April 16, 2015
Citation
Setyawan W., G. Nandipati, K.J. Roche, R.J. Kurtz, and B.D. Wirth. 2015.MOLECULAR DYNAMICS OF CASCADES OVERLAP IN TUNGSTEN WITH 20-KEV PRIMARY KNOCK-ON ATOMS. In Fusion Reactor Materials Semiannual Progress Report for the Period Ending December 31, 2014. 156-159. Oak Ridge, Tennessee:Oak Ridge National Laboratory.PNNL-SA-107572.