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Anomalous Temperature Dependence of Photoluminescence Caused by Non-Equilibrium Distributed Carriers in InGaN/(In)GaN Multiple Quantum Wells

2021-05-17

 

Author(s): Ben, YH (Ben, Yuhao); Liang, F (Liang, Feng); Zhao, DG (Zhao, Degang); Wang, XW (Wang, Xiaowei); Yang, J (Yang, Jing); Liu, ZS (Liu, Zongshun); Chen, P (Chen, Ping)

Source: NANOMATERIALS Volume: 11 Issue: 4 Article Number: 1023 DOI: 10.3390/nano11041023 Published: APR 2021

Abstract: An increase of integrated photoluminescence (PL) intensity has been observed in a GaN-based multiple quantum wells (MQWs) sample. The integrated intensity of TDPL spectra forms an anomalous variation: it decreases from 30 to 100 K, then increases abnormally from 100 to 140 K and decreases again when temperature is beyond 140 K. The increased intensity is attributed to the electrons and holes whose distribution are spatial non-equilibrium distributed participated in the radiative recombination process and the quantum barrier layers are demonstrated to be the source of non-equilibrium distributed carriers. The temperature dependence of this kind of spatial non-equilibrium carriers' dynamics is very different from that of equilibrium carriers, resulting in the increased emission efficiency which only occurs from 100 to 140 K. Moreover, the luminescence efficiency of MQWs with non-equilibrium carriers is much higher than that without non-equilibrium carriers, indicating the high luminescence efficiency of GaN-based LEDs may be caused by the non-equilibrium distributed carriers. Furthermore, a comparison analysis of MQWs sample with and without hydrogen treatment further demonstrates that the better quantum well is one of the key factors of this anomalous phenomenon.

Accession Number: WOS:000643423400001

PubMed ID: 33923643

eISSN: 2079-4991

Full Text: https://www.mdpi.com/2079-4991/11/4/1023



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