Maximization and minimization of interfacial thermal conductance by modulating the mass distribution of the interlayer

Lina Yang, Xiao Wan, Dengke Ma, Yi Jiang, Nuo Yang
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引用次数: 11

Abstract

Tuning interfacial thermal conductance has been a key task for the thermal management of nanoelectronic devices. Here, it is studied how the interfacial thermal conductance is great influenced by modulating the mass distribution of the interlayer of one-dimensional atomic chain. By nonequilibrium Green's function and machine learning algorithm, the maximum/minimum value of thermal conductance and its corresponding mass distribution are calculated. Interestingly, the mass distribution corresponding to the maximum thermal conductance is not a simple function, such as linear and exponential distribution predicted in previous works, it is similar to a sinusoidal curve around linear distribution for larger thickness interlayer. Further, the mechanism of the abnormal results is explained by analyzing the phonon transmission spectra and density of states. The work provides deep insight into optimizing and designing interfacial thermal conductance by modulating mass distribution of interlayer atoms.
通过调节中间层的质量分布来使界面导热系数最大化和最小化
调整界面热导率一直是纳米电子器件热管理的关键任务。本文研究了调节一维原子链间层质量分布对界面热导率的影响。通过非平衡格林函数和机器学习算法,计算出导热系数的最大/最小值及其对应的质量分布。有趣的是,最大热导率对应的质量分布并不是一个简单的函数,如前人所预测的线性和指数分布,对于较大厚度的夹层,它类似于一个围绕线性分布的正弦曲线。进一步,通过分析声子透射谱和态密度,解释了异常结果产生的机理。该工作为通过调节层间原子的质量分布来优化和设计界面热导提供了深刻的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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