Nuclear Materials and Energy (Jan 2019)

Effects of argon on deuterium retention in polycrystalline tungsten under single, sequential and simultaneous ion irradiation

  • J.A. Shanahan,
  • T.J. Finlay,
  • J.W. Davis,
  • A.A. Haasz

Journal volume & issue
Vol. 18
pp. 212 – 215

Abstract

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Argon is one of the candidates for impurity seeding in the ITER divertor; however, few studies exist on either Ar retention in W, or its effect on D retention in W. The current study investigates the effects of simultaneous (SIM) and sequential (SEQ) irradiation of D-2.5% Ar on polycrystalline tungsten at 300–700 K, with ion energies of 500 eV/D+ and 1.5 keV/Ar+, and compares the findings with a similar previous study on D+/Ne+ irradiation; Ne being another impurity seeding candidate. Trapped D and Ar in irradiated specimens is measured using thermal desorption spectroscopy (TDS). Ar is found to be similar to Ne in its effectiveness in reducing D retention in W, both performing somewhat better than He at reducing D retention at higher W temperatures.