EFFECTS OF CONFINEMENT AND SURFACE RECONSTRUCTION ON THE LATTICE DYNAMICS AND THERMAL TRANSPORT PROPERTIES OF THIN FILMS

机译：约束和表面重构对薄膜的晶格动力学和热传递性质的影响

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Phonon transport in argon and silicon thin films is examined using harmonic lattice dynamics theory and the Lennard-Jones and Stillinger-Weber potentials. Film thicknesses ranging from 0.8 to 33.5 nm for argon and 0.4 to 8.6 nm for silicon are examined at a temperature of 0 K. Both reconstructed films and films built using the bulk unit cell are considered. Phonon dispersion curves for the in-plane direction and the density of states are computed from lattice dynamics and compared to predictions for a bulk system. The results from the lattice dynamics calculations are used to predict the thermal conductivities of the bulk and thin film structures.

机译：使用谐波晶格动力学理论以及Lennard-Jones和Stillinger-Weber势来检查氩气和硅薄膜中的声子传输。在0 K的温度下检查氩气的膜厚度范围为0.8至33.5 nm，硅的膜厚度范围为0.4至8.6 nm。考虑了重建膜和使用体晶电池构建的膜。从晶格动力学计算平面内方向的声子色散曲线和状态密度，并将其与整体系统的预测值进行比较。晶格动力学计算的结果用于预测块状和薄膜结构的热导率。

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《ASME(American Society of Mechanical Engineers)/JSME(Japanese Society of Mechanical Engineers) Thermal Engineering Summer Heat Transfer Conference 2007》|2007年|P.100|共1页
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J.E. Turney; A.J.H. McGaughey; C.H. Amon;
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中图分类热力工程理论;
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α: lattice parameter; c: constant vector; c_(ph): phonon specific heat; h: planck's constant over 2π; i: imaginary number; i, j, k: unit vectors in x-, y-, and z-directions; k_B: boltzmann's constant; k_x: thermal conductivity in the x-direction; l_1,l;

机译：α：晶格参数; c：常数向量; c_（ph）：声子比热; h：普朗克在2π上的常数; i：虚数; i，j，k：x，y和z方向的单位向量; k_B：博尔兹曼常数; k_x：x方向的热导率; l_1，l;

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EFFECTS OF CONFINEMENT AND SURFACE RECONSTRUCTION ON THE LATTICE DYNAMICS AND THERMAL TRANSPORT PROPERTIES OF THIN FILMS

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