渐变型量子阱垒层厚度对GaN基双波长发光二极管发光特性调控的研究

陈峻; 范广涵; 张运炎

广东工业大学实验教学部,广州510006 华南师范大学光电子材料与技术研究所,广州510631

华南师范大学光电子材料与技术研究所,广州,510631

The investigation of performance improvement of GaN-based dual-wavelength light-emitting diodes with various thickness of quantum barriers

摘要: 采用软件理论分析的方法对渐变型量子阱垒层厚度的InGaN双波长发光二极（LED）的载流子浓度分布、能带结构、自发发射谱、内量子效率、发光功率及溢出电子流等进行研究．分析结果表明，增大量子阱垒层厚度会影响空穴在各量子阱的注入情况，对双波长LED各量子阱中空穴浓度分布的均衡性及双波长发光光谱的调控起到一定作用，但会导致内量子效率严重下降：而当以特定的方式从n电极到p电极方向递减渐变量子阱垒层厚度时，活性层量子阱的溢出电子流得到有效的控制，双发光峰强度达到基本一致，同时芯片的内量子效率下降得到了有效控制，且具备大驱动电流下较好的发光特性．

关键词:

Abstract: The electrical and optical characteristics of GaN-based dual-wavelength light-emitting diodes （LEDs） with the specific design of various thick barriers are investigated numerically. The simulation results show that the thickness of barrier plays a regulatory role in emission spectrum of the dual-wavelength LED. The internal quantum efficiency droop is improved and the two peaks of spectrum become uniform due to the thickness of barriers gradually decreasing from the n-side to the p-side in a specific way. The balanced distribution of carrier concentration and the enhancement of electron confinement could be the major physical mechanism behind these improvements. It is also shown that the better optical performance is achieved at the large current injection level.

渐变型量子阱垒层厚度对GaN基双波长发光二极管发光特性调控的研究

广东工业大学实验教学部,广州510006 华南师范大学光电子材料与技术研究所,广州510631

华南师范大学光电子材料与技术研究所,广州,510631

关键词:

The investigation of performance improvement of GaN-based dual-wavelength light-emitting diodes with various thickness of quantum barriers

广东工业大学实验教学部,广州510006 华南师范大学光电子材料与技术研究所,广州510631

华南师范大学光电子材料与技术研究所,广州,510631

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