Effect of localized tail states in InGaN on the efficiency droop in GaN light-emitting diodes with increasing current density

Autor: R. I. Gorbunov, Yu. T. Rebane, Andrey Zubrilov, A. I. Tsyuk, Yu. G. Shreter, Vladislav Voronenkov, N. I. Bochkareva, Philippe Latyshev, Yu. S. Lelikov
Rok vydání: 2012
Předmět:
Zdroj: Semiconductors. 46:1032-1039
ISSN: 1090-6479
1063-7826
DOI: 10.1134/s1063782612080039
Popis: The mechanism of the internal quantum efficiency droop in InGaN/GaN structures with multiple quantum wells at current densities of up to 40 A cm−2 in high-power light-emitting diodes is analyzed. It is shown that there exists a correlation between the efficiency droop and the broadening of the high-energy edge of the emission spectrum with increasing current density. It is also demonstrated that the efficiency is a spectrum-dependent quantity and the emission of higher energy photons starts to decrease at higher current densities. The effect of tunneling and thermally activated mechanisms of thermalization of carriers captured into shallow band-tail states in the energy gap of InGaN on the efficiency and the emission spectrum’s shape is considered. Analysis of the results obtained suggests that the efficiency droop occurs at high current densities because of the relative rise in the contribution from nonradiative recombination via defect states as a result of the increasing occupancy of deep band-tail states in InGaN. It is shown that power efficiency close to the theoretical limit can be obtained in the case of low-voltage tunnel injection into localized band-tail states in the InGaN active region.
Databáze: OpenAIRE
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