InGaN的Stillinger-Weber势

X. W. Zhou, R. Jones
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引用次数: 9

摘要

减少沉积在GaN衬底上的InGaN薄膜的缺陷对于填补固态照明应用的“绿色”空白至关重要。为了使研究人员能够使用分子动力学气相沉积模拟来探索减少InGaN薄膜中缺陷的方法,我们已经开发并表征了InGaN的Stillinger-Weber势。我们发现该势再现了氮化镓和氮化镓的纤锌矿/锌矿平衡相的实验原子体积、内聚能和体积模量。最重要的是,势捕获了InGaN化合物对各种其他元素、合金和化合物构型的正确相的稳定性。在气相沉积模拟过程中,随机向生长表面注入吸附原子,电势能够预测化学计量纤锌矿和锌-闪锌矿InxGa1-xN化合物的结晶生长,这一点得到了验证。
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A Stillinger-Weber Potential for InGaN
Reducing defects in InGaN films deposited on GaN substrates has been critical to fill the “green” gap for solid-state lighting applications. To enable researchers to use molecular dynamics vapor deposition simulations to explores ways to reduce defects in InGaN films, we have developed and characterized a Stillinger-Weber potential for InGaN. We show that this potential reproduces the experimental atomic volume, cohesive energy, and bulk modulus of the equilibrium wurtzite / zinc-blende phases of both InN and GaN. Most importantly, the potential captures the stability of the correct phase of InGaN compounds against a variety of other elemental, alloy, and compound configurations. This is validated by the potential’s ability to predict crystalline growth of stoichiometric wurtzite and zinc-blende InxGa1-xN compounds during vapor deposition simulations where adatoms are randomly injected to the growth surface.
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