Recombination channels in 2.4-3.2 m GaInAsSb quantum-well lasers

K. S. Gadedjisso-Tossou; S. Belahsene; M. A. Mohou; E. Tournié; Y. Rouillard

doi:10.1088/0268-1242/28/1/015015

Recombination channels in 2.4-3.2 m GaInAsSb quantum-well lasers

K. S. Gadedjisso-Tossou
, S. Belahsene
, M. A. Mohou
, E. Tournié
, Y. Rouillard

Research output: Contribution to journal › Article › peer-review

Abstract

Spontaneous emission has been used to evaluate the proportion of the different recombination channels in 2.4-3.2 m type I- GaInAsSb quantum-well lasers operating at room temperature. The method consists in using the square root of the integrated spontaneous emission rate as a value proportional to the carrier density. A second-degree polynomial relationship can then be used to determine the proportion of the different recombination currents (monomolecular, radiative and Auger) in a laser diode operated below threshold. A notable increase of the Auger recombination has been observed with increasing wavelength. Auger recombination currents account for only 26% of the total current at threshold at 2.4 m, while the proportion reaches 55% at 2.8 m and 64% at 3.2 m.

Original language	English
Article number	015015
Journal	Semiconductor Science and Technology
Volume	28
Issue number	1
DOIs	https://doi.org/10.1088/0268-1242/28/1/015015
Publication status	Published - 1 Jan 2013
Externally published	Yes

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abstract = "Spontaneous emission has been used to evaluate the proportion of the different recombination channels in 2.4-3.2 m type I- GaInAsSb quantum-well lasers operating at room temperature. The method consists in using the square root of the integrated spontaneous emission rate as a value proportional to the carrier density. A second-degree polynomial relationship can then be used to determine the proportion of the different recombination currents (monomolecular, radiative and Auger) in a laser diode operated below threshold. A notable increase of the Auger recombination has been observed with increasing wavelength. Auger recombination currents account for only 26\% of the total current at threshold at 2.4 m, while the proportion reaches 55\% at 2.8 m and 64\% at 3.2 m.",

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AU - Gadedjisso-Tossou, K. S.

AU - Belahsene, S.

AU - Mohou, M. A.

AU - Tournié, E.

AU - Rouillard, Y.

PY - 2013/1/1

Y1 - 2013/1/1

N2 - Spontaneous emission has been used to evaluate the proportion of the different recombination channels in 2.4-3.2 m type I- GaInAsSb quantum-well lasers operating at room temperature. The method consists in using the square root of the integrated spontaneous emission rate as a value proportional to the carrier density. A second-degree polynomial relationship can then be used to determine the proportion of the different recombination currents (monomolecular, radiative and Auger) in a laser diode operated below threshold. A notable increase of the Auger recombination has been observed with increasing wavelength. Auger recombination currents account for only 26% of the total current at threshold at 2.4 m, while the proportion reaches 55% at 2.8 m and 64% at 3.2 m.

AB - Spontaneous emission has been used to evaluate the proportion of the different recombination channels in 2.4-3.2 m type I- GaInAsSb quantum-well lasers operating at room temperature. The method consists in using the square root of the integrated spontaneous emission rate as a value proportional to the carrier density. A second-degree polynomial relationship can then be used to determine the proportion of the different recombination currents (monomolecular, radiative and Auger) in a laser diode operated below threshold. A notable increase of the Auger recombination has been observed with increasing wavelength. Auger recombination currents account for only 26% of the total current at threshold at 2.4 m, while the proportion reaches 55% at 2.8 m and 64% at 3.2 m.

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JO - Semiconductor Science and Technology

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Recombination channels in 2.4-3.2 m GaInAsSb quantum-well lasers

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