Effect of temperature and radiation damage on the local atomic structure of metallic plutonium and related compounds

Abstract: This focused review provides an overview and a framework for understanding local structure in metallic plutonium (especially the metastable fcc δ-phase alloyed with Ga) as it relates to self-irradiation damage. Of particular concern is the challenge of understanding self-irradiation damage in plutonium-bearing materials where theoretical challenges of the unique involvement of the 5f electrons in bonding limit the efficacy of molecular dynamics simulations and experimental challenges of working with radioactiv… Show more

“…From this comparison, they report that classical defect production models (NRT-dpa and Kinchin-Pease) are insufficient to capture the effect of different bonding on defect evolution in intermetallics. Further validation of this finding with MD simulations -as demonstrated by Okamoto et al (Okamoto et al, 1991) for N-ion irradiated amorphous Pd 80 Si 20 , and Booth and Olive (Booth and Olive, 2017) for pure Pu -would be insightful, but subject to the availability of accurate interatomic potentials.…”

“…This enables experiments to be directly compared to simulations, as demonstrated by Andrianov et al (Andrianov et al, 2021) in Figure 2C. EXAFS has been used to study the impact of self-irradiation in Pu and its alloys as a function of dose (Booth et al, 2007;Booth et al, 2013;Olive et al, 2016;Booth and Olive, 2017). Booth et al use EXAFS to determine the fraction of a sample that is damaged and compare these measurements to estimates based on point defect production and annealing (Booth et al, 2013).…”

Towards Quantitative Inference of Nanoscale Defects in Irradiated Metals and Alloys

“…From this comparison, they report that classical defect production models (NRT-dpa and Kinchin-Pease) are insufficient to capture the effect of different bonding on defect evolution in intermetallics. Further validation of this finding with MD simulations -as demonstrated by Okamoto et al (Okamoto et al, 1991) for N-ion irradiated amorphous Pd 80 Si 20 , and Booth and Olive (Booth and Olive, 2017) for pure Pu -would be insightful, but subject to the availability of accurate interatomic potentials.…”

“…This enables experiments to be directly compared to simulations, as demonstrated by Andrianov et al (Andrianov et al, 2021) in Figure 2C. EXAFS has been used to study the impact of self-irradiation in Pu and its alloys as a function of dose (Booth et al, 2007;Booth et al, 2013;Olive et al, 2016;Booth and Olive, 2017). Booth et al use EXAFS to determine the fraction of a sample that is damaged and compare these measurements to estimates based on point defect production and annealing (Booth et al, 2013).…”

Towards Quantitative Inference of Nanoscale Defects in Irradiated Metals and Alloys

“…From this comparison, they report that classical defect production models (NRT-dpa and Kinchin-Pease) are insufficient to capture the effect of different bonding on defect evolution in intermetallics. Further validation of this finding with MD simulations (as demonstrated by Okamoto et al [75] for N-ion irradiated amorphous Pd 80 Si 20 , and Booth et al [74] for pure Pu) would be insightful, but subject to the availability of accurate interatomic potentials.…”

“…2(c). EXAFS has been used to study the impact of self-irradiation in Pu and its alloys as a function of dose [71][72][73][74]. Booth et al use EXAFS to determine the fraction of a sample that is damaged and compare these measurements to estimates based on point defect production and annealing [72].…”

Towards quantitative inference of nanoscale defects in irradiated metals and alloys

Ab initio calculations for void swelling bias in α - and δ -plutonium