Non-destructive electroluminescence inspection for LED epitaxial wafers based on soft single-contact operation

IF 6.6 1区 物理与天体物理 Q1 OPTICS Photonics Research Pub Date : 2024-05-31 DOI:10.1364/prj.522697
Hao Su, Jiawen Qiu, Junlong Li, Rong Chen, Jianbi Le, Xiaoyang Lei, Yongai Zhang, Xiongtu Zhou, Tailiang Guo, Chaoxing Wu
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Abstract

Non-destructive and accurate inspection of gallium nitride light-emitting diode (GaN-LED) epitaxial wafers is important to GaN-LED technology. However, the conventional electroluminescence inspection, the photoluminescence inspection, and the automated optical inspection cannot fulfill the complex technical requirements. In this work, an inspection method and an operation system based on soft single-contact operation, namely, single-contact electroluminescence (SC-EL) inspection, are proposed. The key component of the SC-EL inspection system is a soft conductive probe with an optical fiber inside, and an AC voltage (70V pp , 100 kHz) is applied between the probe and the ITO electrode under the LED epitaxial wafer. The proposed SC-EL inspection can measure both the electrical and optical parameters of the LED epitaxial wafer at the same time, while not causing mechanical damage to the LED epitaxial wafer. Moreover, it is demonstrated that the SC-EL inspection has a higher electroluminescence wavelength accuracy than photoluminescence inspection. The results show that the non-uniformity of SC-EL inspection is 444.64%, which is much lower than that of photoluminescence inspection. In addition, the obtained electrical parameters from SC-EL can reflect the reverse leakage current (I s ) level of the LED epitaxial wafer. The proposed SC-EL inspection can ensure high inspection accuracy without causing damage to the LED epitaxial wafer, which holds promising application in LED technology.
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基于软单接触操作的 LED 外延晶片无损电致发光检测
氮化镓发光二极管(GaN-LED)外延片的无损和精确检测对氮化镓发光二极管技术非常重要。然而,传统的电致发光检测、光致发光检测和自动光学检测无法满足复杂的技术要求。本文提出了一种基于软单接触操作的检测方法和操作系统,即单接触电致发光(SC-EL)检测。SC-EL 检测系统的关键部件是一个内含光纤的软导电探针,在探针和 LED 外延片下的 ITO 电极之间施加交流电压(70V pp,100 kHz)。拟议的 SC-EL 检测可同时测量 LED 外延片的电气和光学参数,同时不会对 LED 外延片造成机械损伤。此外,SC-EL 检测比光致发光检测具有更高的电致发光波长精度。结果表明,SC-EL 检测的不均匀度为 444.64%,远低于光致发光检测。此外,SC-EL 检测获得的电参数可以反映 LED 外延片的反向漏电流(I s )水平。建议的 SC-EL 检测可确保高检测精度,且不会对 LED 外延片造成损坏,在 LED 技术中具有广阔的应用前景。
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来源期刊
CiteScore
13.60
自引率
5.30%
发文量
1325
期刊介绍: Photonics Research is a joint publishing effort of the OSA and Chinese Laser Press.It publishes fundamental and applied research progress in optics and photonics. Topics include, but are not limited to, lasers, LEDs and other light sources; fiber optics and optical communications; imaging, detectors and sensors; novel materials and engineered structures; optical data storage and displays; plasmonics; quantum optics; diffractive optics and guided optics; medical optics and biophotonics; ultraviolet and x-rays; terahertz technology.
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