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Sample spinning to mitigate polarization artifact and interstitial-vacancy imbalance in ion-beam irradiation 被引量:1

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摘要 Accelerator-based ion-beam irradiation has been widely used to mimic the effects of neutron radiation damage in nuclear reactors.However,ion radiation is most often monodisperse in the incoming ions’momentum direction,leading to excessive polarization in defect distribution,while the scattering under neutron irradiation is often more isotropic and has less radiation-induced polarization.Mitigation of the excess-polarization as well as the damage non-uniformity artifact might be crucial for making the simulation of neutron radiation by ion-beam radiation more realistic.In this work,a general radiation polarization theory in treating radiation as external polar stimuli is established to understand the natural material responses in different contexts,and the possibility to correct the defect polarization artifact in ion-beam irradiation.Inspired by Magic Angle Spinning in Nuclear Magnetic Resonance,we present a precise sample spinning strategy to reduce the point-defect imbalance effect in ion-beam irradiation.It can be seen that with optimized surface inclination angle and the axis of sample rotation,the vacancy-interstitial population imbalance,as well as the damage profile non-uniformity in a designated region in the target are both reduced.It is estimated that sample spinning frequency on the order of kHz should be sufficient to scramble the ion momentum monodispersity for commonly taken ion fluxes and dose rates,which is experimentally feasible.
出处 《npj Computational Materials》 SCIE EI CSCD 2020年第1期107-117,共11页 计算材料学(英文)
基金 C.R.,P.H.,and Z.Z.acknowledge the support from the Strategic Priority Research Program of the Chinese Academy of Sciences under grant no.XDA02040100 C.R.acknowledges the support from the scholarship from China Scholarship Council.J.L.acknowledges support from the US DOE Office of Nuclear Energy’s NEUP Program under grant no.DE-NE0008827 Y.L.acknowledges the National Natural Science Foundation of China under grant nos.11975018 and 11775254 the National Magnetic Confinement Fusion Energy Research Project under grant no.2018YEF0308100。
关键词 beam VACANCY MOMENTUM
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