The effect of displacement damage on deuterium retention in tungsten exposed to D neutrals and D2 gas

Samples of polycrystalline ITER-grade W and recrystallized W were irradiated at room temperature with 20 MeV Wions to displacement damage up to 0.5 dpa. The damaged W samples were then exposed to (i) D neutrals at 403-573 K and (ii) D-2 gas at 673-1073 K and pressures of 1.2 and 100 kPa. Trapping of deuterium in the damage zone was examined by the D(He-3, p)He-4 nuclear reaction with 3He energies between 0.69 and 4.0 MeV allowing determination of the D concentration up to a depth of 6 mu m. It has been found that generation of the W-ion-induced displacement damage leads to accumulation of deuterium in the damage zone up to concentration depending on the exposure temperature and, at temperatures P673 K, on the D2 gas pressure. Thermal desorption spectra allowed a conclusion that deuterium is mainly accumulated in the form of D atoms bound to inner walls of vacancy clusters. (C) 2013 Elsevier B.V. All rights reserved.