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作 者:陈振飞[1,2] 冯露[1,2] 赵洋[1,2] 齐红蕊[1,2]
机构地区:[1]天津市现代工程力学重点实验室,天津300072 [2]天津大学机械工程学院力学系,天津300072
出 处:《物理学报》2015年第13期406-414,共9页Acta Physica Sinica
基 金:国家自然科学基金(批准号:11272231;11072169)资助的课题~~
摘 要:本文提出了一个新的基于扩散界面的相场模型来描述外延生长中岛的形核、生长及熟化过程.该模型同时考虑了弹性场、表面能、沉积、扩散、解吸和能量势垒等热力学及动力学过程对表面纳米形貌的影响.采用经典的BCF模型来描述生长中的扩散形核过程,而采用一个新的包含弹性应变能的自由能函数,通过变分得到一个描述多层岛生长的相场方程,该方法可以有效地描述外延生长中复杂的外延形貌.采用有限差分格式对非线性耦合方程组进行求解.数值结果显示,该模型可以真实地再现外延生长中多层岛结构(即山丘状形貌)的演化过程,模拟结果与已有实验结果一致.同时模拟了生长过程中随外延形貌演化而形成的复杂生长应力,研究表明,在生长过程中,岛中存在着复杂的应力分布,且在岛边界处应力达到局部最大,这与实验结果定性一致.此外,本文的重要发现是,外延生长中的应力演化明显地影响原子的扩散过程,当应力存在时,外延结构变化较无弹性场时变快.该项研究对理解外延生长中各物理机理的协同作用有重要的指导意义.In this paper, a new phase-field model based on diffusion interface is put forward to describe the epitaxial growth including island nucleation, growth, and ripening. Thermodynamics and kinetics play an important role in epitaxial morphology evolution. This model includes combined effects of the following processes, such as elastic field, surface energy, deposition, diffusion, desorption, and energy barrier etc. We use the classical BCF model to describe the atomic diffusion and nucleation processes, and use a new free energy function, including elastic strain energy, to obtain a phase-field equation that can describe the growth of dynamic multi-island by variation method. This model can effectively simulates the complex morphology in epitaxial growth. The nonlinear coupled equations can be solved by finite difference scheme. Numerical result shows that this model can reproduce the real multilayer epitaxial growth structure, and the simulation results are consistent with the experimental results. At the same time we also simulate the complex growth stress with morphology evolution. Results show that, accompanied with the epitaxial growth, a complex stress distribution is produced, and the stress reaches a local maximum on the boundaries of the island, which is consistent with the experimental results. Most importantly, the stress significantly affects the atomic diffusion process. While the stress exists, the epitaxial structure will change faster. These results can make a significance effect on the research of physical mechanism in epitaxial growth.
分 类 号:O552.2[理学—热学与物质分子运动论]
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