Linewidth Characterization of Integrable Slotted Single-Mode Lasers

Author

Abdullaev, A. ; Qiaoyin Lu ; Wei-Hua Guo ; Nawrocka, M. ; Bello, F. ; O´Callaghan, James ; Donegan, J.F.

Author_Institution

Photonics Group, Trinity Coll., Dublin, Ireland

Volume

26

Issue

22

fYear

2014

fDate

Nov.15, 15 2014

Firstpage

2225

Lastpage

2228

Abstract

A single-mode laser platform has been developed with a simple and high-yield fabrication based on etched slots. We present linewidth measurements on such lasers, which are fabricated without any regrowth steps. The group of slots placed on one side of laser cavity provides sufficient reflectivity for lasing, which allows the laser to be integrated with other devices such as semiconductor optical amplifiers and modulators. The laser with an effective cavity length of 450 μm exhibits a threshold current of 31 mA and a side-mode suppression ratio of 48 dB. The laser shows a minimum Lorentzian linewidth of ~720 kHz at room temperature. The linewidth remains ~1 MHz within the temperature range of 10 °C-60 °C.

Keywords

laser cavity resonators; laser modes; optical modulation; reflectivity; semiconductor optical amplifiers; current 31 mA; effective cavity length; etched slots; integrable slotted single-mode lasers; laser cavity; linewidth characterization; minimum Lorentzian linewidth; modulators; reflectivity; semiconductor optical amplifiers; side-mode suppression ratio; size 450 mum; temperature 10 degC to 60 degC; Cavity resonators; Distributed feedback devices; Laser modes; Measurement by laser beam; Semiconductor lasers; Temperature measurement; Single mode laser; side mode suppression ratio (SMSR); surface grating;

fLanguage

English

Journal_Title

Photonics Technology Letters, IEEE

Publisher

ieee

ISSN

1041-1135

Type

jour

DOI

10.1109/LPT.2014.2350772

Filename

6882129