ii型红色InGaN/GaNSb/GaN量子阱结构的增强光发射

IF 1.5 4区物理与天体物理 Q3 PHYSICS, CONDENSED MATTER

Advances in Condensed Matter Physics Pub Date : 2022-09-26 DOI:10.1155/2022/8993349

Seoung-Hwan Park, J. Shim, Dong‐Soo Shin

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引用次数: 0

摘要

利用多波段有效质量理论研究了ii型InGaN/GaNSb/GaN量子阱(QW)结构在红光发光二极管中的潜在应用。在InGaN/GaN QW结构中加入GaNSb层对最上层价带周围的重空穴有效质量影响不大，而在InGaN/GaN QW结构中加入GaNSb层则大大增加了光学矩阵元素。结果表明，ii型InGaN/GaNSb/GaN量子w结构的发射峰比常规i型量子w结构大得多，这主要是由于电子和空穴波函数之间的空间距离减小以及有效阱宽度的减小。还观察到Sb含量高的ii型QW结构比i型QW结构能显著降低InGaN井中的In含量。

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Enhanced Light Emission from Type-II Red InGaN/GaNSb/GaN Quantum-Well Structures

Electronic and optical properties of type-II InGaN/GaNSb/GaN quantum-well (QW) structures are investigated by using the multiband effective mass theory for potential applications in red light-emitting diodes. The heavy-hole effective mass around the topmost valence band is not affected much by the insertion of the GaNSb layer, and the optical matrix elements are greatly increased by the inclusion of the GaNSb layer in the InGaN/GaN QW structure. As a result, the type-II InGaN/GaNSb/GaN QW structure shows a much larger emission peak than the conventional type-I QW structure owing to the decrease in spatial separation between electron and hole wavefunctions, in addition to the reduction of the effective well width. It is also observed that the In content in InGaN well can be significantly reduced for the type-II QW structure with a large Sb content, compared to that for the type-I QW structure.

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来源期刊

Advances in Condensed Matter Physics PHYSICS, CONDENSED MATTER-

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Advances in Condensed Matter Physics publishes articles on the experimental and theoretical study of the physics of materials in solid, liquid, amorphous, and exotic states. Papers consider the quantum, classical, and statistical mechanics of materials; their structure, dynamics, and phase transitions; and their magnetic, electronic, thermal, and optical properties. Submission of original research, and focused review articles, is welcomed from researchers from across the entire condensed matter physics community.