Numerically investigating the cause of broadband lasing from InAs/InP quantum-dash laser

Author

Khan, M.Z.M. ; Ng, Tien Khee ; Ooi, Boon S.

Author_Institution

Math. Sci. & Eng. (CEMSE) Div., King Abdullah Univ. of Sci. & Technol. (KAUST), Thuwal, Saudi Arabia

fYear

2013

fDate

27-30 April 2013

Firstpage

1

Lastpage

3

Abstract

The authors numerically investigated the origin of broadband lasing from multi-stack InAs/InP quantum dash (Qdash) laser. For this a model based on multi-population carrier-photon rate equation is developed which treats each Qdash stacking layer separately. In addition, the coupling between the adjacent stacks is also accounted in the model apart from the inhomogeneous broadening due to dash size or composition fluctuation. Simulation results show that the effect of Qdash inhomogeneity on a single plane (in-plane or localized inhomogeneity) is negligible in broadening the lasing spectra compared to the inhomogeneity across the stacks that are emitting at different wavelength. Our results would help in further optimizing the wafer structure design and improve the lasing bandwidth.

Keywords

III-V semiconductors; indium compounds; quantum dash lasers; spectral line broadening; InAs-InP; Qdash; Qdash stacking layer; broadband lasing; lasing bandwidth; multipopulation carrier-photon rate equation; quantum-dash laser; wafer structure design; Broadband communication; Laser modes; Laser theory; Mathematical model; Nonhomogeneous media; Photonics; Quantum dash laser; broadband lasers; chirped barrier; rate equation model;

fLanguage

English

Publisher

ieee

Conference_Titel

Electronics, Communications and Photonics Conference (SIECPC), 2013 Saudi International

Conference_Location

Fira

Print_ISBN

978-1-4673-6196-5

Electronic_ISBN

978-1-4673-6194-1

Type

conf

DOI

10.1109/SIECPC.2013.6551024

Filename

6551024