Stereo transmission electron microscopy was used to characterize the distribution in depth of disordered zones and associated dislocation loops in the ordered alloys Ni3Al and Cu3Au after heavy-ion irradiation, most extensively for Ni3Al irradiated with 50keV Ta+ ions at a temperature of 573K. The Cu3Au specimen was irradiated with 50keV Ni+ ions at a temperature of 373K with the ion beam incident at 45° in order to see more clearly the shapes and sizes of the cascades parallel to the beam direction. The defect yield in Ni3Al, that was the probability for a disordered zone to contain a loop, was found to be strongly dependent on the depth of the zone in the foil, varying from about 0 to 7 for near-surface zones to about 0 to 2 in the bulk. The sizes and shapes of disordered zones were independent of the depth of the zones in the foil, except for a small population of zones very near the surface which were strongly elongated parallel to the incident ion beam. In Cu3Au the surface had a smaller effect, with the yield falling from about 0 to 7 close to the surface to 0-5 for the deeper zones. These measurements of the depth dependence were interpreted in terms of the annihilation of freely migrating point defects at the surface. The results were compared with recent computer simulations.

The Influence of the Surface on the Production and Development of Displacement Cascades in Ni3Al and Cu3Au. Müller, S., Jenkins, M.L., Abromeit, C., Wollenberger, H.: Philosophical Magazine A, 1997, 75[6], 1625-40