金属-电介质多层膜在低温下的有效跨面热导率

Pub Date : 2024-04-25 DOI:10.1063/10.0025298
A. I. Bezuglyj, I. V. Mironenko, V. A. Shklovskij
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引用次数: 0

摘要

根据声子分布函数的波尔兹曼传递方程的解析解,从理论上考虑了层状金属-电介质结构中的热传递问题。考虑到尺寸效应,详细分析了含有两个金属层的结构的有效跨平面导热性问题。如果金属层的厚度小于声子平均自由路径,则层间传热主要由声子进行,有效跨平面导热率由金属/电介质界面的声子反射决定。在厚金属层的相反情况下,有效的跨平面热导率由金属层的热导率和介电层的热阻决定。所得结果可推广到多层结构和超晶格。
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Effective cross-plane thermal conductivity of metal-dielectric multilayers at low temperatures
Heat transfer in layered metal-dielectric structures is considered theoretically based on an analytical solution of the Boltzmann transfer equation for the phonon distribution function. Taking into account the size effect, the problem of effective cross-plane thermal conductivity of structures containing two metal layers is analyzed in detail. If the thickness of the metal layers is less than the phonon mean free path, interlayer heat transfer is carried out predominantly by phonons, and the effective cross-plane thermal conductivity is determined by the reflection of phonons from the metal/dielectric interfaces. In the opposite case of thick metal layers, the effective cross-plane thermal conductivity is determined both by the thermal conductivity of the metal layers and by the thermal resistance of the dielectric layers. The results obtained are generalized to multilayer structures and superlattices.
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