Q. Xu et al., Computer simulations of the effects of temperature change on defect accumulation in copper during neutron irradiation, J NUCL MAT, 283, 2000, pp. 297-301
Kinetic Monte Carlo (kMC) computer simulations were used to study the effec
ts of temperature change during low-dose 14-MeV fusion neutron irradiations
on defect accumulation in copper. Instantaneous temperature changes from 3
00 to 473 K, from 300 to 673 K and from 373 to 573 K were simulated. All th
e high temperatures are above the Stage-V annealing temperature for copper,
approximately 400 K. The total simulated dose was 0.01 dpa for all tempera
ture-change simulations, at a dose rate of 10(-6) dpa/s. In general, the co
ncentrations of both self-interstitial atom (SIA) clusters and vacancy clus
ters decrease when the temperature is changed from low to high. The relativ
e decrease in concentration of defect clusters when the temperature is incr
eased is determined by the level of accumulation of vacancy clusters in the
initial low-temperature part of the irradiation as well as by the specific
temperatures involved. If the vacancy clusters are small and their concent
ration is high, the decrease of cluster density is prominent when the tempe
rature increases, and the higher the second temperature, the easier it is f
or defect clusters to dissolve. (C) 2000 Elsevier Science B.V. All rights r
eserved.