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W2891162238 abstract "Understanding radiation damage in crystalline systems at the atomic scale is essential for the development of multi-scale predictive models for advancing nuclear science and engineering applications. State-of-the-art techniques used for investigating irradiation effects include molecular dynamics (MD) simulations, which can provide attosecond resolution of damage cascades over picosecond time scales, and in situ transmission electron microscopy (TEM), which can provide millisecond resolution in real-time. In this work, MD simulations and in situ TEM ion beam irradiation of crystalline TiO2 with 46 keV Ti1− ions are performed and results are compared. The MD results show that the ratio of the titanium to oxygen defects evolves during the radiation cascade. The vacancies are produced mostly in the core, while self-interstitials are concentrated at the periphery of the cascade. Cluster analysis of the MD results confirms the formation of a void (or a cluster of vacancies) that contains as much as ≈10 000 vacancies in the ballistic phase, compared to <1000 after annealing. The radial distribution functions and the simulated selected area electron diffraction patterns at the peak of the ballistic phase confirm the existence of a short-range order and medium-range order throughout the simulation. However, the long-range order reemerges after annealing of the cascade event in agreement with the in situ TEM ion beam irradiation experiments. The MD simulations and the experiments show no indication of amorphization." @default.
W2891162238 created "2018-09-27" @default.
W2891162238 creator A5038272900 @default.
W2891162238 creator A5058134889 @default.
W2891162238 creator A5084424363 @default.
W2891162238 creator A5084684827 @default.
W2891162238 date "2018-09-06" @default.
W2891162238 modified "2023-09-27" @default.
W2891162238 title "A study of irradiation effects in TiO<sub>2</sub> using molecular dynamics simulation and complementary <i>in situ</i> transmission electron microscopy" @default.
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W2891162238 doi "https://doi.org/10.1063/1.5045491" @default.
W2891162238 hasPublicationYear "2018" @default.
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