Development and transferability of neural-network models for plasma-surface interactions

可转让性 计算机科学 集合(抽象数据类型) 原子间势 机器学习 人工智能 领域(数学) 深度学习 分子动力学 钻石 开发(拓扑) 数据科学 力场(虚构) 质量(理念) 数据挖掘 训练集 标杆管理 实证研究 复杂系统 试验装置 基础(线性代数) 计算模型 计算
作者
Jack S. Draney,Athanassios Z. Panagiotopoulos,David B. Graves
出处
期刊:Journal of vacuum science & technology [American Institute of Physics]
卷期号:43 (6) 被引量:1
标识
DOI:10.1116/6.0004843
摘要

Plasma-surface interactions are increasingly critical to modern technologies; yet, accurate molecular dynamics simulations remain limited by the capabilities of interatomic potentials. Deep Potentials (DPs) promise to revolutionize the field by providing a systematic method for producing accurate interatomic potentials. The primary challenge of DP development is selecting a dataset, which efficiently spans the set of atomic environments one expects to encounter in the subsequent molecular dynamics simulations. The computational cost of density functional theory calculations, which are the typical basis for DP development, makes it impossible to directly verify the quality of a given DP. To address this challenge, we explore the development of a deep-learned interatomic potential, “DeepREBO,” trained to reproduce the behavior of the REBO2 empirical potential, enabling direct validation of training methodology and transferability. Using an active learning framework, we begin with a minimal dataset and iteratively expand it to train a Deep Potential-Smooth Edition model that faithfully reproduces REBO2 results for 25 eV hydrogen bombardment of diamond (001), a particularly challenging case. We show that small, carefully curated datasets can outperform large, unguided ones, with effective models requiring fewer than 15 000 snapshots. Subsequent transferability tests demonstrate that while DeepREBO generalizes well to diamond (111) surfaces, performance degrades for amorphous carbon or higher-energy impacts, highlighting the need for use-case-specific training data. We also evaluate methods to improve short-range repulsion. This study outlines best practices for training robust deep potentials and underscores the importance of dataset design for predictive plasma simulations.
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