Abstract
Abstract Further electron microscopy studies were made of the vacancy type defects produced in gold thin films by keV gold ion bombardment along channeling directions at room temperature as described in Part I. It was found that the defect density increased linearly with dose, and that the defect size distribution was independent of dose for a given ion energy. The average defect size increased with increasing ion energy. Measurements of the defect depth distributions below the surface were also made for bombardments along a fixed direction (i.e. [001]) as a function of energy (5–120 keV) and for bombardments of fixed energy (40 keV) as a function of channeling direction (i.e. [111], [001], and [011]). The distributions were all sharply peaked below the surface. It was concluded that serious glissile defect losses to the surface occurred within 100–200 A of the surface. Considerable evidence in the literature supporting this conclusion was cited. The defect depth distributions in the regions unaffected by...
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