Green laser diodes with low threshold current density via interface engineering of InGaN/GaN quantum well active region

Aiqin Tian; Jianping Liu; Liqun Zhang; ZengCheng Li; Masao Ikeda; Shuming Zhang; Deyao Li; Pengyan Wen; Feng Zhang; Yang Cheng; Xiaowang Fan; Hui Yang

doi:10.1364/OE.25.000415

Green laser diodes with low threshold current density via interface engineering of InGaN/GaN quantum well active region

Opt Express. 2017 Jan 9;25(1):415-421. doi: 10.1364/OE.25.000415.

Authors

Aiqin Tian, Jianping Liu, Liqun Zhang, ZengCheng Li, Masao Ikeda, Shuming Zhang, Deyao Li, Pengyan Wen, Feng Zhang, Yang Cheng, Xiaowang Fan, Hui Yang

PMID: 28085835
DOI: 10.1364/OE.25.000415

Abstract

By observing the morphology evolution of green InGaN/GaN quantum well (QW) and studying the catholuminescence (CL) property, we investigate indium-segregation-related defects that are formed at green InGaN/GaN QW interfaces. Meanwhile, we also propose the approach and suggest the mechanism to remove them for green InGaN/GaN QW grown on both GaN templates and free-standing GaN substrates. By engineering the interface of green InGaN/GaN QWs, we have achieved green laser diode (LD) structure with low threshold current density of 1.85 kA cm^-2. The output power of the green LD is 58 mW at a current density of 6 kA cm^-2 under continuous-wave operation at room temperature.