An investigation of self-interstitial diffusion in α-zirconium by an on-the-fly machine learning force field.

Autor: Shi, Tan, Liu, Wenlong, Zhang, Chen, Lyu, Sixin, Sun, Zhipeng, Peng, Qing, Li, Yuanming, Meng, Fanqiang, Tang, Chuanbao, Lu, Chenyang
Předmět:
Zdroj: AIP Advances; May2024, Vol. 14 Issue 5, p1-7, 7p
Abstrakt: The on-the-fly machine learning force field approach, based on the Gaussian approximation potential and Bayesian error estimation, was used to study the diffusion of self-interstitial atoms in α-zirconium. Ab initio molecular dynamics simulations of lattice vibration and interstitial diffusion at different temperatures were employed to develop the force field. The radial and angular descriptors of the potential were further optimized to achieve better agreement with first-principles results. Subsequent long-term diffusion simulations were performed to assess the diffusion behavior based on the obtained force field. Tracer diffusion coefficients and diffusion anisotropy were studied at temperatures of 600–1200 K, and the Bayesian errors were estimated throughout the diffusion simulations. The mean and maximum estimated Bayesian errors of atomic force were approximately twice as large as those observed during the learning period. The basal diffusion was greatly favored compared to the interstitial diffusion along the c-axis, consistent with previous simulations based on first-principles results and classical potentials. The accuracy and applicability of the current on-the-fly machine learning approach were critically evaluated. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index