Improving photoelectric characteristics of GaN-based green laser diodes by inserting electron blocking layer with gradient Al composition

IF 2.7 Q2 PHYSICS, CONDENSED MATTER Micro and Nanostructures Pub Date : 2024-10-18 DOI:10.1016/j.micrna.2024.207996

Yuhui Chen , Yanheng Song , Zhiwei Wang , Jiayue Li , Junchen Zhou , Yufei Hou , Mei Zhou

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Abstract

This paper proposes four new gradient composition electron blocking layer (EBL) structures to enhance the photoelectric performance of GaN-based green laser diodes (LDs). The optical and electrical properties of new structure LDs are theoretically analyzed by LASTIP. It is observed that the implementation of a gradient composition EBL structure increases the effective barrier height for electrons, thereby better inhibiting the electron current overflow from the active region. In addition, the optical field leakage is effectively suppressed, lower threshold current and higher output power are obtained. The four different new structures have obvious differences in the improvement of the hole current injection and slope efficiency of multiple quantum well (MQW) LDs, and the underlying reasons for these phenomena are explored. Simulation results indicate that adopting a gradually descending Al component EBL structure yields optimal improvements in the photoelectric performance of LDs.

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通过插入具有梯度铝成分的电子阻挡层改善氮化镓基绿色激光二极管的光电特性

本文提出了四种新的梯度组成电子阻挡层（EBL）结构，以提高氮化镓基绿色激光二极管（LD）的光电性能。通过 LASTIP 对新结构 LD 的光学和电学特性进行了理论分析。结果表明，采用梯度成分 EBL 结构可增加电子的有效势垒高度，从而更好地抑制电子电流从有源区溢出。此外，还能有效抑制光场泄漏，获得更低的阈值电流和更高的输出功率。四种不同的新结构在改善多量子阱（MQW）LD 的空穴电流注入和斜率效率方面存在明显差异，并探讨了产生这些现象的根本原因。仿真结果表明，采用逐渐下降的铝成分 EBL 结构能最佳地改善 LD 的光电性能。

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来源期刊

Micro and Nanostructures

CiteScore

6.50

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0.00%

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