Addressing the discrepancy of finding the equilibrium melting point of silicon using molecular dynamics simulations

机译：使用分子动力学模拟解决发现硅的平衡熔点的差异

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We performed molecular dynamics simulations to study the equilibrium melting point of silicon using (i) the solid–liquid coexistence method and (ii) the Gibbs free energy technique, and compared our novel results with the previously published results obtained from the Monte Carlo (MC) void-nucleated melting method based on the Tersoff-ARK interatomic potential (Agrawal et al. Phys. Rev. B >72, 125206. ()). Considerable discrepancy was observed (approx. 20%) between the former two methods and the MC void-nucleated melting result, leading us to question the applicability of the empirical MC void-nucleated melting method to study a wide range of atomic and molecular systems. A wider impact of the study is that it highlights the bottleneck of the Tersoff-ARK potential in correctly estimating the melting point of silicon.

机译：我们使用（i）固液共存方法和（ii）Gibbs自由能技术进行了分子动力学模拟，以研究硅的平衡熔点，并将我们的新结果与先前发表的蒙特卡洛（MC）研究结果进行了比较。）基于Tersoff-ARK原子间电势的空核成核法（Agrawal等，Phys。Rev. B > 72 ，125206.（）。前两种方法与MC空核熔化的结果之间存在相当大的差异（约20％），这使我们对经验MC空核熔化方法研究广泛的原子和分子系统的适用性提出质疑。该研究的更广泛影响是，它凸显了正确估计硅熔点时Tersoff-ARK潜力的瓶颈。

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期刊名称 Proceedings. Mathematical Physical and Engineering Sciences
作者
Saeed Zare Chavoshi; Shuozhi Xu; Saurav Goel;
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作者单位

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年(卷),期 -1(473),2202
年度 -1
页码 20170084
总页数 9
原文格式 PDF
正文语种
中图分类病理学;
关键词
melting point silicon molecular dynamics Tersoff-ARK Tersoff potential;

机译：熔点;硅;分子动力学;Tersoff-ARK;Tersoff势;

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专利

1. Addressing the discrepancy of finding the equilibrium melting point of silicon using molecular dynamics simulations [J] . Chavoshi Saeed Zare, Xu Shuozhi, Goel Saurav Proceedings of the Royal Society. Mathematical, physical and engineering sciences . 2017,第2202期

机译：使用分子动力学模拟解决硅的平衡熔点的差异
2. Affect of the graphene layers on the melting temperature of silicon by molecular dynamics simulations [J] . Le Van Sang Computational Materials Science . 2016,第Null期

机译：分子动力学模拟石墨烯层对硅熔融温度的影响
3. Molecular dynamics simulations of the tensile and melting behaviours of silicon nanowires [J] . Jing YH, Meng QY, Zhao W Physica, E. Low-dimensional systems & nanostructures . 2009,第4期

机译：硅纳米线拉伸和熔化行为的分子动力学模拟
4. THERMAL CONDUCTIVITY OF SILICON NANOWIRE BY NONEQUILIBRIUM MOLECULAR DYNAMICS SIMULATIONS [C] . Shuai-chuang Wang, Xin-gang Liang, Xiang-hua Xu Micro/Nanoscale Heat Transfer International Conference 2008 . 2008

机译：非平衡分子动力学模拟的硅纳米线的热导率
5. Extracting equilibrium from nonequilibrium: Free energy calculation from steered molecular dynamics simulations. [D] . Park, Sanghyun. 2004

机译：从非平衡中提取平衡：通过分子动力学模拟获得自由能。
6. Molecular Dynamics Simulations of Molecular Diffusion Equilibrium and Breakdown Mechanism of Oil-Impregnated Pressboard with Water Impurity [O] . Yi Guan, Ming-He Chi, Wei-Feng Sun, 2018

机译：含油杂质的含油纸板的分子扩散平衡和分解机理的分子动力学模拟
7. Addressing the discrepancy of finding the equilibrium melting point of silicon using molecular dynamics simulations [O] . Saeed Zare Chavoshi, Shuozhi Xu, Saurav Goel 2017

机译：使用分子动力学模拟解决硅的平衡熔点的差异

Addressing the discrepancy of finding the equilibrium melting point of silicon using molecular dynamics simulations

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