Spectral Delay Algebraic Equation Approach to Broad Area Laser Diodes

Author

Perez-Serrano, Antonio ; Javaloyes, Julien ; Balle, Salvador

Author_Institution

Weierstrass Inst. for Appl. Anal. & Stochastics, Berlin, Germany

Volume

19

Issue

5

fYear

2013

fDate

Sept.-Oct. 2013

Firstpage

1

Lastpage

8

Abstract

In this study, we discuss an efficient modeling approach for the simulation of broad-area laser diodes. Our method is based on folding the longitudinal propagation dimension into time delays which extend to the lateral dimension and to the influence of diffractive terms the idea of mesh decimation as it is discussed in . We compare the results of the dynamics obtained with our improved model that consists of coupled delay algebraic equations with the results of a standard traveling wave description in the cases of straight current stripes as well as in the important configuration of high-power tapered antireflection coated devices. We obtain an excellent agreement and an improvement of the integration time between one and two orders of magnitudes which may alleviate in some cases the necessity of using complex parallel codes.

Keywords

antireflection coatings; delays; diffraction gratings; semiconductor lasers; algebraic equations; antireflection coated devices; broad area laser diodes; broad-area laser diodes; complex parallel codes; coupled delay; current stripes; diffractive terms; integration time; longitudinal propagation; spectral delay algebraic equation; standard traveling wave description; time delays; Approximation methods; Equations; Laser beams; Laser modes; Mathematical model; Optical polarization; Optical pumping; Broad area lasers; quantum well laser; semiconductor laser (SL); tapered amplifiers;

fLanguage

English

Journal_Title

Selected Topics in Quantum Electronics, IEEE Journal of

Publisher

ieee

ISSN

1077-260X

Type

jour

DOI

10.1109/JSTQE.2013.2246772

Filename

6461041