Abstract
ABSTRACTElectron chanelling linewidth changes in aluminum have been measured as a function of dose for boron and aluminum ion implantation. Weak beam TEM observations assist interpretation of the results by showing the nature and degree of the damage. For self implantation, a linear relationship between dose, linewidth, and dislocation density has been found up to 3×1017ions/cm2. For boron implantation, a new point-like defect appears at the higher boron concentrations, giving a much slower increase of chanelling linewidth with dose above l×1016 ions/cm2. Boron interaction with the damage stabilizes higher damage acumilations than for sel f-i mpl antati on.
Publisher
Springer Science and Business Media LLC