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Paper detail

Large-scale atomistic simulation of dislocation core structure in face-centered cubic metal with Deep Potential method

The core structure of dislocations is critical to their mobility, cross slip, and other plastic behaviors. Atomistic simulation of the core structure is limited by the size of first-principles density functional theory (DFT) calculation and the accuracy of classical molecular dynamics with empirical interatomic potentials. Here, we utilize a Deep Potential (DP) method learned from DFT calculations to investigate the dislocations of face-centered cubic copper on a large scale and obtain their core structures and energies. The validity of the DP description of the core structure and elastic strain from dislocation is confirmed by a fully discrete Peierls model. Moreover, the DP method can be further extended easily to dislocations with defects such as surface or vacancy, and our study will pave a way in the large-scale atomistic simulation of dislocation on the DFT level.

preprint2022arXivOpen access
Fenglin DengHongyu WuRi HePeijun YangZhicheng Zhong
cond-mat.mtrl-sci
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Fenglin DengHongyu WuRi HePeijun YangZhicheng Zhong

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