Spatially resolved current density distribution in GaN-based flip-chip green mini-LEDs by microscopic hyperspectral imaging and modified two-level modeling

Author:

Lin Yi1ORCID,Deng Jingyu1,Li Qiyao1,Zheng Xi1,Zhu Lihong1,Guo Weijie1ORCID,Lin Yue1ORCID,Chen Zhong1,Lu Yijun1ORCID

Affiliation:

1. Xiamen University

Abstract

A modified two-level model is proposed to study the spatially resolved current density distribution of GaN-based green miniaturized light-emitting diodes (mini-LEDs), combining with microscopic hyperspectral imaging. We found that the spatially resolved current density distribution reveals both the radiative and non-radiative recombination mappings, which can also be provided separately by this model. In addition, higher current density is not necessarily correlated with higher photon emission, especially for the regions around the electrode edges, where the high current density suggests current crowding and defect-related non-radiative recombination. The current density distribution of mini-LEDs is further verified by the laser-beam-induced current (LBIC) and the spatially resolved mappings of peak wavelength and FWHM. The modified two-level model also offers radiative/non-radiative mappings and is proved to be beneficial to determine the micro-zone current density distribution and to reveal the intrinsic radiative/non-radiative recombination mechanism of mini-LEDs.

Funder

National Natural Science Foundation of China

Major Science and Technology Project of Fujian Province

Publisher

Optica Publishing Group

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