Compact Dual-Wavelength InAs/GaAs Quantum-Dot External-Cavity Laser Stabilized by a Single Volume Bragg Grating

Author

Daghestani, N.S. ; Cataluna, M.A. ; Ross, G. ; Rose, M.J.

Author_Institution

Sch. of Eng., Univ. of Dundee, Dundee, UK

Volume

23

Issue

3

fYear

2011

Firstpage

176

Lastpage

178

Abstract

Stable dual-wavelength operation has been achieved by combining a single volume Bragg grating with a quantum-dot-based gain medium in a compact external cavity configuration, with extreme ease of alignment. The dual-wavelength output was centered at 1179.9 and 1182.8 nm, with each mode exhibiting a spectral bandwidth 0.2 nm. A maximum output power of 186 mW was achieved, with both modes displaying a sidemode suppression-ratio (SMSR) of over 34 dB. Furthermore, the SMSR remained well over 26 dB within a broad current range (350-1000 mA) and temperature range (10.5 C-40 °C). Unlike previous dual-wavelength configurations that used quantum-well-based devices, the quantum-dot-based laser here presented displays improved stability and resilience to changes in operating temperature and current.

Keywords

Bragg gratings; III-V semiconductors; gallium arsenide; indium compounds; laser cavity resonators; laser stability; quantum dot lasers; InAs-GaAs; compact dual wavelength external cavity laser; current 350 mA to 1000 mA; operating temperature; power 186 mW; quantum dot external cavity laser; single volume Bragg grating; stability; temperature 10.5 C to 40 C; wavelength 1179.9 nm; wavelength 1182.8 nm; Bragg gratings; Cavity resonators; Laser modes; Laser stability; Power generation; Quantum dot lasers; Quantum-dot lasers; semiconductor lasers; terahertz technology; volume Bragg gratings;

fLanguage

English

Journal_Title

Photonics Technology Letters, IEEE

Publisher

ieee

ISSN

1041-1135

Type

jour

DOI

10.1109/LPT.2010.2096206

Filename

5654537