Recoil energy dependence of primary radiation damage in tungsten from cascade overlap with voids
Aslak Fellman, Andrea E. Sand
Abstract
Models of radiation damage accumulation often assume a constant rate of additional primary damage formation during prolonged irradiation. However, molecular dynamics simulations have shown that the presence of pre-existing radiation-induced defects modifies the numbers of additional defects formed from individual cascades. In this work, we study the formation of defects in tungsten for a range of pri-mary recoil energies, for cascades that fully overlap with pre-existing voids of different sizes. We extend a recent model describing defect production in the presence of pre-existing damage to also account for the recoil energy dependence, and parametrize the extension based on our simulation data. We also an-alyze the morphology of the primary damage from cascades overlapping with voids, and show that the in-cascade formation of ( 1 0 0 ) dislocation loops in such events is more dependent on the size of the pre-existing void, than on the energy of the primary recoil. (c) 2022 The Author(s). Published by Elsevier B.V. This is an open access article under the CC BY license ( http://creativecommons.org/licenses/by/4.0/ )