Nature and thermal stability of radiation defects in single-crystal tungsten

“…Stage II, between À170°C and 350°C, is a steady recovery attributed to the release of interstitials from traps with a wide range of interaction energies from 0.25 to 1.7 eV [27]. This explains the many sub-stages observed for example in resistivity studies [17]. These two stages occur below fusion reactor operating temperatures, and will not be considered further here.…”

“…Numerous studies have also been undertaken with regard to the recovery of irradiation-induced defects post-irradiation. However, these have mostly centred around resistivity measurements [12][13][14][15][16][17][18][19], with some early field ion microscopy work [20,21] and a single early TEM study on single crystal tungsten [22]. A similar TEM work has also been done in molybdenum [23].…”

“…In single-crystal tungsten, 2 defects were found to be stable up to 1900°C, [17] presumably due to the absence of sinks at grain boundaries. Bykov et al [17] identified three stages of annealing: 500-800 (Stage IV), 950-1200 (Stage V), and 1200-1900 (Stage VI).…”

“…Stage IV recovery, at 0:22T m , is still subject to debate [14], being generally attributed to vacancy-impurity complexes [33], or di-vacancies [17]. Recent DFT simulations have shown that di-vacancies are not favoured in tungsten [34].…”

“…Higher temperature recovery stages in tungsten have been largely un-researched since the 1970s, with interpretation being limited to resistivity measurements and early FIM experiments [17,33,20].…”

High temperature annealing of ion irradiated tungsten

“…Stage II, between À170°C and 350°C, is a steady recovery attributed to the release of interstitials from traps with a wide range of interaction energies from 0.25 to 1.7 eV [27]. This explains the many sub-stages observed for example in resistivity studies [17]. These two stages occur below fusion reactor operating temperatures, and will not be considered further here.…”

“…Numerous studies have also been undertaken with regard to the recovery of irradiation-induced defects post-irradiation. However, these have mostly centred around resistivity measurements [12][13][14][15][16][17][18][19], with some early field ion microscopy work [20,21] and a single early TEM study on single crystal tungsten [22]. A similar TEM work has also been done in molybdenum [23].…”

“…In single-crystal tungsten, 2 defects were found to be stable up to 1900°C, [17] presumably due to the absence of sinks at grain boundaries. Bykov et al [17] identified three stages of annealing: 500-800 (Stage IV), 950-1200 (Stage V), and 1200-1900 (Stage VI).…”

“…Stage IV recovery, at 0:22T m , is still subject to debate [14], being generally attributed to vacancy-impurity complexes [33], or di-vacancies [17]. Recent DFT simulations have shown that di-vacancies are not favoured in tungsten [34].…”

“…Higher temperature recovery stages in tungsten have been largely un-researched since the 1970s, with interpretation being limited to resistivity measurements and early FIM experiments [17,33,20].…”

High temperature annealing of ion irradiated tungsten

Characterisation of radiation damage in W and W-based alloys from 2 MeV self-ion near-bulk implantations

Thermal diffusivity recovery and defect annealing kinetics of self-ion implanted tungsten probed by insitu transient grating spectroscopy