Observation and comparison of multiwavelength generation erbium doped fibre ring laser utilising photonic crystal fibre with zero dispersion at 1040 nm and 1550 nm

Mohd Nizam Abdullah, Sahbudin Shaari, P. Susthitha Menon N V Visvanathan, Abang Annuar Ehsan, Osman Zakaria

Research output: Contribution to journalArticle

Abstract

We conducted an experiment to demonstrate the generation of multiwavelength by incorporatingfibre Bragg gratings (FBGs) and photonic crystalfibre (PCF) which has zero dispersion of 1040 nm and 1550 nm in erbium dopedfibre ring laser (EDFRL). The multiwavelength was generated at gain bandwidth EDFRL setup. The results showed a good agreement of less than 0.03% of peaks wavelength generation based on both experimental set-up. The setup also share good repeatability of peaks wavelength generation of 0.01 nm and power deviation of 0.15 dBm. Nevertheless, experimental set-up with PCF of ZDW at 1550 has generated multi wavelength phenomenon by 30% effectively compared to PCF with ZDW at 1040 nm by 30% effectively. The results produced an impactfulfinding whereby the multiwavelength were clearly observed.

Original languageEnglish
Pages (from-to)1-6
Number of pages6
JournalIEICE Electronics Express
Volume12
Issue number12
DOIs
Publication statusPublished - 25 Jun 2015

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Erbium
Ring lasers
Photonic crystal fibers
ring lasers
Fiber lasers
Photonics
erbium
fiber lasers
photonics
Wavelength
fibers
wavelengths
crystals
Bragg gratings
bandwidth
deviation
Bandwidth
Experiments

Keywords

  • Fibre Bragg grating (FBG)
  • Multiwalength
  • Photonic crystalfibre (PCF)

ASJC Scopus subject areas

  • Electronic, Optical and Magnetic Materials
  • Condensed Matter Physics
  • Electrical and Electronic Engineering

Cite this

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title = "Observation and comparison of multiwavelength generation erbium doped fibre ring laser utilising photonic crystal fibre with zero dispersion at 1040 nm and 1550 nm",
abstract = "We conducted an experiment to demonstrate the generation of multiwavelength by incorporatingfibre Bragg gratings (FBGs) and photonic crystalfibre (PCF) which has zero dispersion of 1040 nm and 1550 nm in erbium dopedfibre ring laser (EDFRL). The multiwavelength was generated at gain bandwidth EDFRL setup. The results showed a good agreement of less than 0.03{\%} of peaks wavelength generation based on both experimental set-up. The setup also share good repeatability of peaks wavelength generation of 0.01 nm and power deviation of 0.15 dBm. Nevertheless, experimental set-up with PCF of ZDW at 1550 has generated multi wavelength phenomenon by 30{\%} effectively compared to PCF with ZDW at 1040 nm by 30{\%} effectively. The results produced an impactfulfinding whereby the multiwavelength were clearly observed.",
keywords = "Fibre Bragg grating (FBG), Multiwalength, Photonic crystalfibre (PCF)",
author = "Abdullah, {Mohd Nizam} and Sahbudin Shaari and {N V Visvanathan}, {P. Susthitha Menon} and Ehsan, {Abang Annuar} and Osman Zakaria",
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AU - Abdullah, Mohd Nizam

AU - Shaari, Sahbudin

AU - N V Visvanathan, P. Susthitha Menon

AU - Ehsan, Abang Annuar

AU - Zakaria, Osman

PY - 2015/6/25

Y1 - 2015/6/25

N2 - We conducted an experiment to demonstrate the generation of multiwavelength by incorporatingfibre Bragg gratings (FBGs) and photonic crystalfibre (PCF) which has zero dispersion of 1040 nm and 1550 nm in erbium dopedfibre ring laser (EDFRL). The multiwavelength was generated at gain bandwidth EDFRL setup. The results showed a good agreement of less than 0.03% of peaks wavelength generation based on both experimental set-up. The setup also share good repeatability of peaks wavelength generation of 0.01 nm and power deviation of 0.15 dBm. Nevertheless, experimental set-up with PCF of ZDW at 1550 has generated multi wavelength phenomenon by 30% effectively compared to PCF with ZDW at 1040 nm by 30% effectively. The results produced an impactfulfinding whereby the multiwavelength were clearly observed.

AB - We conducted an experiment to demonstrate the generation of multiwavelength by incorporatingfibre Bragg gratings (FBGs) and photonic crystalfibre (PCF) which has zero dispersion of 1040 nm and 1550 nm in erbium dopedfibre ring laser (EDFRL). The multiwavelength was generated at gain bandwidth EDFRL setup. The results showed a good agreement of less than 0.03% of peaks wavelength generation based on both experimental set-up. The setup also share good repeatability of peaks wavelength generation of 0.01 nm and power deviation of 0.15 dBm. Nevertheless, experimental set-up with PCF of ZDW at 1550 has generated multi wavelength phenomenon by 30% effectively compared to PCF with ZDW at 1040 nm by 30% effectively. The results produced an impactfulfinding whereby the multiwavelength were clearly observed.

KW - Fibre Bragg grating (FBG)

KW - Multiwalength

KW - Photonic crystalfibre (PCF)

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