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GaN-based distributed feedback laser diodes for optical communications

GaN-based distributed feedback laser diodes for optical communications

Authors :
Mike Leszczynski
Stephen P. Najda
Steffan Gwyn
Szymon Stanczyk
Giovanni Giuliano
Szymon Grzanka
Piotr Perlin
Thomas J. Slight
Kevin E. Docherty
Amit Yadav
Scott Watson
Edik U. Rafailov
Anthony Kelly
Shaun Viola
Publication Year :
2019

Abstract

Over the past 20 years, research into Gallium Nitride (GaN) has evolved from LED lighting to Laser Diodes (LDs), with applications ranging from quantum to medical and into communications. Previously, off-the-shelf GaN LDs have been reported with a view on free space and underwater communications. However, there are applications where the ability to select a single emitted wavelength is highly desirable, namely in atomic clocks or in filtered free-space communications systems. To accomplish this, Distributed Feedback (DFB) geometries are utilised. Due to the complexity of overgrowth steps for buried gratings in III-Nitride material systems, GaN DFBs have a grating etched into the sidewall to ensure single mode operation, with wavelengths ranging from 405nm to 435nm achieved. The main motivation in developing these devices is for the cooling of strontium ions (Sr+ ) in atomic clock applications, but their feasibility for optical communications have also been investigated. Data transmission rates exceeding 1 Gbit/s have been observed in unfiltered systems, and work is currently ongoing to examine their viability for filtered communications. Ultimately, transmission through Wavelength Division Multiplexing (WDM) or Orthogonal Frequency Division Multiplexing (OFDM) is desired, to ensure that data is communicated more coherently and efficiently. We present results on the characterisation of GaN DFBs, and demonstrate their capability for use in filtered optical communications systems.

Details

Language :
English
ISSN :
1996756X and 0277786X
Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....9691324dbbe1dae4db779d16d3f48bf7