扩散过程中多层膜表面的形态稳定性

2015 International Conference "Stability and Control Processes" in Memory of V.I. Zubov (SCP) Pub Date : 2015-12-03 DOI:10.1109/SCP.2015.7342172

S. Kostyrko, G. Shuvalov

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引用次数: 4

摘要

众所周知，多层薄膜结构由于不同层间的晶格不匹配而产生固有的应力。与其他受应力固体类似，这种材料可以通过质量重分布自组织表面形状以最小化总能量。然而，形貌稳定性对于制造无缺陷微电子器件是非常重要的。利用所建立的模型，可以检查导致不稳定的条件。基于吉布斯热力学和弹性线性理论，我们提出了一种计算控制方程的算法，该方程给出了表面扩散和体积扩散引起的表面波动幅度变化。通过对该方程的参数化研究，可以确定使表面稳定的临界波动波长。

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Morphological stability of multilayer film surface during diffusion processes

It is well known that multilayer thin film structures are inherently stressed owing to lattice mismatch between different layers. Similar to other stressed solids, such materials can self-organize a surface shape with mass redistribution to minimize a total energy. However, the morphological stability are very important in fabrication of defect-free microelectronic devices. With developed model, the conditions leading to instability can be examined. Based on Gibbs thermodynamics and linear theory of elasticity, we present an algorithm for deriving a governing equation that gives the amplitude change of surface undulation via surface and volume diffusion. A parametric study of this equation leads to the definition of a critical undulation wavelength which stabilizes the surface.

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2015 International Conference "Stability and Control Processes" in Memory of V.I. Zubov (SCP)

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