Cs diffusion mechanisms in UO2 investigated by SIMS, TEM, and atomistic simulations

C Panetier and Y Pipon and C Gaillard and D Mangin and J Amodeo and J Morthomas and T Wiss and A Benedetti and R Ducher and R Dubourg and N Moncoffre, JOURNAL OF CHEMICAL PHYSICS, 156, 044705 (2022).

DOI: 10.1063/5.0076358

Experimental investigations and atomistic simulations are combined to study the cesium diffusion processes at high temperature in UO2. After Cs-133 implantation in UO2 samples, diffusion coefficients are determined using the depth profile evolution after annealing as measured by secondary ion mass spectrometry. An activation energy of 1.8 +/- 0.2 eV is subsequently deduced in the 1300-1600 degrees C temperature range. Experimental results are compared to nudged elastic band simulations performed for different atomic paths including several types of uranium vacancy defects. Activation energies ranging from 0.49 up to 2.34 eV are derived, showing the influence of the defect (both in terms of type and concentration) on the Cs diffusion process. Finally, molecular dynamics simulations are performed, allowing the identification of preferential Cs trajectories that corroborate experimental observations.

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