In-situ TEM observations were carried out in copper and gold under 100 keV C þ , 240 keV Cu þ , 600 keV Kr 2þ , and 900 keV Xe 3þ irradiations from 573 to 823 K, in order to obtain direct experimental insights into the defect accumulation processes. Defect clusters corresponding to displacement cascades were observed to be unstable depending on the temperature, ion species, and fluence. Multiple (2 or 3) defect clusters showing up with their contrast in the same video frames were considered to be features associated with subcascades and high mobility of these clusters when located within 20 nm and from 20 to 140 nm, respectively. Instability and diffusion of defect clusters were also detected under ion irradiation. The directions of the cascade-driven and instability-driven motions of the defect clusters were strongly related to crowdion directions, suggesting that the underlying mechanism is based on the motion of crowdion-related glissile defects. This instability is interpreted as the transition of sessile defects into glissile ones. The effects of intra-and inter-cascades on the formation of glissile defects are suggested based on their dependence on the ion species and flux.
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