Materials (Apr 2022)

Radiation-Induced Patterning at the Nanometric Scale: A Phase Field Approach

  • David Simeone,
  • Philippe Garcia,
  • Laurence Luneville

DOI
https://doi.org/10.3390/ma15092991
Journal volume & issue
Vol. 15, no. 9
p. 2991

Abstract

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The phase field approach was developed in the last 20 years to handle radiation damage in materials. This approach bridges the gap between atomistic simulations extensively used to model first step of radiation damage at short time and continuum approach at large time. The main advantage of such an approach lies in its ability to compute not only the microstructure at the nanometric scale but also to calculate generalized susceptibilities such as elastic constants under irradiation. After a brief description of the rate theory, used to model the microstructure induced by irradiation, we briefly discuss the foundation of the phase field method, highlighting not only its advantages, but also its limitations in comparison with the rate theory. We conclude this presentation by proposing future orientations for computing the microstructure in irradiated materials.

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