Effect of elastic interaction on self-assembled island spatial arrangement : Advances in computational materials science and engineering II

Materials Transactions Jim Pub Date : 2001-11-20 DOI:10.2320/MATERTRANS.42.2279

S. Vannarat, K. Esfarjani, S. Chui, Y. Kawazoe

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Abstract

Self-assembled islands are spontaneously formed during the heteroepitaxial growth of InAs on GaAs substrate. The island formation creates strain fields in the substrate and this leads to elastic interaction between the islands. We calculate the strain energy of the array of InAs islands on the GaAs substrate by the finite element method, and extract the elastic interaction between the islands from the variation of the energy with the distance between the islands. The interaction decays with the third power of the inter-island distance, in agreement with our previous work. The effect of the interaction on the correlation of the island positions is examined by comparing the coefficient of the interaction with the phase transition criteria of the two-dimensional dipole system. When the island size is large enough, depending on the island density, an array of islands can be in either a liquid phase where the islands are randomly distributed or in a solid phase where the islands form a two dimensional lattice. Only the liquid phase exists when the island size is small.

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弹性相互作用对自组装岛空间排列的影响:计算材料科学与工程进展[j]

InAs在GaAs衬底上的异质外延生长过程中自发形成自组装岛。岛屿形成在基底中产生应变场，这导致岛屿之间的弹性相互作用。采用有限元法计算了砷化镓衬底上InAs岛屿阵列的应变能，并通过岛屿之间的能量随岛屿之间距离的变化提取了岛屿之间的弹性相互作用。相互作用随岛间距离的三次幂衰减，与我们以前的工作一致。通过将相互作用系数与二维偶极子系统的相变准则进行比较，考察了相互作用对岛位相关性的影响。当岛的大小足够大时，根据岛的密度，一组岛可以处于随机分布的液相中，也可以处于形成二维晶格的固相中。当岛大小较小时，只有液相存在。

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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Materials Transactions Jim

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