分子动力学模拟和可视化

1999 IEEE International Conference on Information Visualization (Cat. No. PR00210) Pub Date : 1999-07-14 DOI:10.1109/IV.1999.781579

R. Durikovic, T. Motooka

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引用次数: 3

摘要

我们已经开发出能够模拟熔化、结晶和非晶化的原子尺度材料模型。这些模型的特点是由朗之万运动方程控制的分子动力学，其中粒子通过吸引共价力和短程排斥力相互作用。此外，我们还提出了一种用于模拟原子尺度材料行为的交互式虚拟可视化工具。这项研究的一个应用是了解可以控制从熔体中生长的单晶Si质量的过程。

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Molecular dynamics simulation and visualization

We have developed atomic-scale material models capable of simulating melting, crystallization and amorphization. These models feature molecular dynamics governed by Langevin equations of motion in which particles interact through attractive covalent forces and short-range repulsion forces. Also, we present an interactive virtual visualization tool for the simulation of atomic scale material behavior. An application of this research is to understand the processes that can control the quality of a single-crystal Si grown from the melt.

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来源期刊

1999 IEEE International Conference on Information Visualization (Cat. No. PR00210)

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