INTEGRATION OF MOLECULAR DYNAMICS SIMULATIONS AND BOLTZMANN TRANSPORT EQUATION IN PHONON THERMAL CONDUCTIVITY ANALYSIS

机译：声子热导率分析中的分子动力学模拟和玻尔兹曼输运方程的积分

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The thermal conductivity of the Lennard-Jones argon crystal is predicted using the Boltzmann transport equation under the single mode relaxation time approximation. The temperature and frequency dependence of the phonon dispersion and phonon relaxation times are obtained from lattice dynamics calculations based on the results of molecular dynamics simulations. No fitting parameters are required. The thermal conductivity results are in agreement with predictions from the simulations using the Green-Kubo method. Assuming that the dispersion is linear or temperature independent, as is often done in analytical calculations, leads to large errors in the predictions. This result suggests that the fitting parameters required in such calculations offset significant errors introduced by these simplifying assumptions.

机译：在单模弛豫时间近似下，使用玻耳兹曼输运方程预测Lennard-Jones氩晶体的热导率。基于分子动力学模拟的结果，通过晶格动力学计算获得了声子色散和声子弛豫时间的温度和频率依赖性。不需要拟合参数。导热率结果与使用Green-Kubo方法进行的模拟预测相一致。假设色散是线性的或与温度无关的，就像在分析计算中经常这样做的那样，会导致预测中的大误差。该结果表明，此类计算中所需的拟合参数抵消了这些简化假设所引入的重大误差。

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来源
《Proceedings of the ASME Heat Transfer Division 2003》|2003年|P.277-287|共11页
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作者
A. J. H. McGaughey; M. Kaviany; J. D. Chung;
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原文格式 PDF
正文语种
中图分类热工量测和热工自动控制的应用;
关键词
thermal conductivity; molecular dynamics simulations; phonon; single mode relaxation time;

机译：导热系数;分子动力学模拟;声子;单模弛豫时间;

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3. Phonon properties and thermal conductivity from first principles, lattice dynamics, and the Boltzmann transport equation [J] . McGaughey Alan J. H., Jain Ankit, Kim Hyun-Young, Journal of Applied Physics . 2019,第1期

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INTEGRATION OF MOLECULAR DYNAMICS SIMULATIONS AND BOLTZMANN TRANSPORT EQUATION IN PHONON THERMAL CONDUCTIVITY ANALYSIS

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