连接(In,Ga)N量子阱的原子和连续体模型:从紧密结合能景观到电子结构和载流子输运

S. Schulz, M. O’Donovan, D. Chaudhuri, S. Patra, P. Farrell, O. Marquardt, T. Streckenbach, T. Koprucki
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引用次数: 1

摘要

我们提出了一个计算氮基器件电子和输运性质的多尺度框架。在这里,原子紧密结合模型与基于连续体的电子结构和输运模型相联系。首先,对(In,Ga)N量子阱的电子结构进行了分析,并将原子模型和基于连续体的方法进行了比较,结果表明,尽管这两种模型在相同的能量环境下运行,但得到的结果却存在显著差异;我们简要讨论了改善两种方法之间一致性的方法。利用这一信息,研究了单极载流子输运。我们的计算表明,随机合金波动和量子修正都显著影响输运,与先前的文献结果一致。
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Connecting atomistic and continuum models for (In,Ga)N quantum wells: From tight-binding energy landscapes to electronic structure and carrier transport
We present a multi-scale framework for calculating electronic and transport properties of nitride-based devices. Here, an atomistic tight-binding model is connected with continuum-based electronic structure and transport models. In a first step, the electronic structure of (In,Ga)N quantum wells is analyzed and compared between atomistic and continuum-based approaches, showing that even though the two models operate on the same energy landscape, the obtained results differ noticeably; we briefly discuss approaches to improve the agreement between the two methods. Equipped with this information, uni-polar carrier transport is investigated. Our calculations reveal that both random alloy fluctuations and quantum corrections significantly impact the transport, consistent with previous literature results.
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