Nano-indentation study of dislocation evolution in GaN-based laser diodes.

IF 4.5 0 MATERIALS SCIENCE, MULTIDISCIPLINARY Discover nano Pub Date : 2024-03-07 DOI:10.1186/s11671-024-03983-0

Jingjing Chen, Xujun Su, Guobing Wang, Mutong Niu, Xinran Li, Ke Xu

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Abstract

The slip systems and motion behavior of dislocations induced by nano-indentation technique in GaN-based LDs were investigated. Dislocations with burgers vector of b = 1/3 <11 $\bar{2}$ 3> were introduced on either {11 $\bar{2}$ 2} <11 $\bar{2}$ 3>, or {1 $\bar{1}$ 01} <11 $\bar{2}$ 3> pyramidal slip systems in the upper p-GaN layer. Besides, {0001} <11 $\bar{2}$ 0> basal slip system was also activated. The AlGaN/InGaN multi-layers in device can provide mismatch stresses to prevent dislocations from slipping through. It was observed that the density of dislocations induced by the indenter significantly decreased from the upper to the lower regions of the multi-layers. The a + c dislocations on pyramidal slip planes were mostly blocked by the strained layers.

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氮化镓基激光二极管中位错演变的纳米压痕研究。

研究了纳米压痕技术在氮化镓基 LD 中诱导的位错滑移系统和运动行为。在上层 p-GaN 层的 {11 2 ¯ 2} 2 ¯ 3> 或 {1 1 ¯ 01} 2 ¯ 3> 金字塔滑移系统上引入了勃氏矢量为 b = 1/3 2 ¯ 3> 的位错。此外，{0001} 2 ¯ 0> 基底滑移系统也被激活。器件中的 AlGaN/InGaN 多层可以提供失配应力，防止位错滑过。据观察，由压头诱导的位错密度从多层板的上部区域向下部区域明显降低。金字塔滑移面上的 a + c 位错大多被应变层阻挡。

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Discover nano

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0.70

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