The positron beam Doppler Broadening (DB) and Thermal Helium Desorption Spectroscopy (THDS) techniques are applied to study the behavior of radiation induced point defects in IG-110 nuclear graphite. The defects are introduced by irradiation at room temperature with 200keV He+ at doses ranging from 1015 to 1017 He/cm2. In the thermal desorption spectroscopy, the release of He+ is observed between 500K and 800K. With increasing He+ implantation dose, the fraction of He+ desorbed decreases from 27% to 3%. In the DB-curves showing the S parameter values versus positron implantation depth, the derived vacancy type defect distribution are in accordance with those obtained by SRIM calculations. Subsequent annealing of the implanted samples in steps of 100K for 5 minutes up to 1200K shows a distinct decrease of the S parameter value to its reference value between 500K and 700K. This temperature interval corresponds to the literature values for single vacancy migration energy of 1-2eV. © Published under licence by IOP Publishing Ltd.
CITATION STYLE
Hu, Z., Li, Z., Zhou, Z., Shi, C., Schut, H., & Pappas, K. (2014). Positron and thermal desorption studies on He ion implanted nuclear graphite. In Journal of Physics: Conference Series (Vol. 505). Institute of Physics Publishing. https://doi.org/10.1088/1742-6596/505/1/012014
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