Heat conduction across a solid-solid interface: Understanding nanoscale interfacial effects on thermal resistance

Ganesh Balasubramanian; Ishwar K. Puri

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Heat conduction across a solid-solid interface: Understanding nanoscale interfacial effects on thermal resistance

机译：固-固界面上的热传导：了解纳米级界面对热阻的影响

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Phonons scatter and travel ballistically in systems smaller than the phonon mean free path. At larger lengths, the transport is instead predominantly diffusive. We employ molecular dynamics simulations to describe the length dependence of the thermal conductivity. The simulations show that the interfacial thermal resistance R_k for a Si-Ge superlattice is inversely proportional to its length, but reaches a constant value as the system dimension becomes larger than the phonon mean free path. This nanoscale effect is incorporated into an accurate continuum model by treating the interface as a distinct material with an effective thermal resistance equal to R_k.

机译：在小于声子平均自由程的系统中，声子会散射并弹道移动。在较大的长度上，传输主要是扩散性的。我们采用分子动力学模拟来描述热导率的长度依赖性。仿真表明，Si-Ge超晶格的界面热阻R_k与它的长度成反比，但是随着系统尺寸变得大于声子平均自由程，其达到恒定值。通过将界面视为有效热阻等于R_k的独特材料，将该纳米级效应并入精确的连续模型。

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《Applied Physics Letters》 |2011年第1期|p.013116.1-013116.3|共3页
作者
Ganesh Balasubramanian; Ishwar K. Puri;
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Department of Engineering Science and Mechanics, Virginia Tech, Blacksburg, Virginia 24061, USA;

Department of Engineering Science and Mechanics, Virginia Tech, Blacksburg, Virginia 24061, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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Heat conduction across a solid-solid interface: Understanding nanoscale interfacial effects on thermal resistance

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