用于难熔氧化物的实验驱动自动机器学习原子间势

Experimentally Driven Automated Machine-Learned Interatomic Potential for a Refractory Oxide.

作者信息

Sivaraman Ganesh, Gallington Leighanne, Krishnamoorthy Anand Narayanan, Stan Marius, Csányi Gábor, Vázquez-Mayagoitia Álvaro, Benmore Chris J

机构信息

Leadership Computing Facility, Argonne National Laboratory, Lemont, Illinois 60439, USA.

X-ray Science Division, Argonne National Laboratory, Lemont, Illinois 60439, USA.

出版信息

Phys Rev Lett. 2021 Apr 16;126(15):156002. doi: 10.1103/PhysRevLett.126.156002.

DOI:10.1103/PhysRevLett.126.156002

PMID:33929252

Abstract

Understanding the structure and properties of refractory oxides is critical for high temperature applications. In this work, a combined experimental and simulation approach uses an automated closed loop via an active learner, which is initialized by x-ray and neutron diffraction measurements, and sequentially improves a machine-learning model until the experimentally predetermined phase space is covered. A multiphase potential is generated for a canonical example of the archetypal refractory oxide, HfO_{2}, by drawing a minimum number of training configurations from room temperature to the liquid state at ∼2900 °C. The method significantly reduces model development time and human effort.

摘要

了解难熔氧化物的结构和性质对于高温应用至关重要。在这项工作中，一种结合实验和模拟的方法通过主动学习器使用自动闭环，该学习器由X射线和中子衍射测量初始化，并依次改进机器学习模型，直到覆盖实验预先确定的相空间。通过从室温到约2900°C的液态绘制最少数量的训练构型，为典型难熔氧化物HfO₂的一个典型示例生成了多相势。该方法显著减少了模型开发时间和人力。

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用于难熔氧化物的实验驱动自动机器学习原子间势

Experimentally Driven Automated Machine-Learned Interatomic Potential for a Refractory Oxide.

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