Recombination and loss mechanisms in GaNAsP/GaP QW lasers

N Hossain; J Chamings; SR Jin; SJ Sweeney; S Liebich; S Reinhard; K Volz; B Kunert; W Stolz

doi:10.1109/PGC.2010.5706060

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Recombination and loss mechanisms in GaNAsP/GaP QW lasers

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Recombination and loss mechanisms in GaNAsP/GaP QW lasers

N Hossain, J Chamings, SR Jin, SJ Sweeney, S Liebich, S Reinhard, K Volz, B Kunert and W Stolz

Proceedings of Photonics Global Conference

PGC 2010 (Orchard, Singapore, 14/12/2010–16/12/2010)

2010

DOI: https://doi.org/10.1109/PGC.2010.5706060

Abstract

In this paper the authors present a comprehensive study of the threshold current and its temperature dependence in novel direct band-gap Ga(NAsP)/GaP QW lasers which provide a potential route to lattice matched monolithic integration of long term stable semiconductor lasers on silicon. It is found that near room temperature, the threshold current is dominated by nonradiative recombination accounting for ~87% of the total threshold current density. A strong increase in threshold current with hydrostatic pressure implies that a carrier leakage path is the dominant carrier recombination mechanism.

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Title: Recombination and loss mechanisms in GaNAsP/GaP QW lasers
Creators: N Hossain
J Chamings
SR Jin
SJ Sweeney
S Liebich
S Reinhard
K Volz
B Kunert
W Stolz
Publication Details: Proceedings of Photonics Global Conference
Conference: PGC 2010 (Orchard, Singapore, 14/12/2010–16/12/2010)
Publication Date: 2010
Identifiers: 99514598702346
Academic Unit: School of Maths and Physics
Resource Type: Conference presentation

Recombination and loss mechanisms in GaNAsP/GaP QW lasers

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