Ultra-wideband SOA fibre laser / Nor Ahya Hassan
A comprehensive study has been conducted on an ultra-wideband semiconductor optical amplifier (SOA) for the generation of ultra-wideband fibre lasers of various attributes throughout this dissertation. The fundamental characteristics of the ultrawideband SOA such as the gain and noise figure (NF)...
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my.um.stud.65292016-08-01T06:56:15Z Ultra-wideband SOA fibre laser / Nor Ahya Hassan Hassan, Nor Ahya Q Science (General) A comprehensive study has been conducted on an ultra-wideband semiconductor optical amplifier (SOA) for the generation of ultra-wideband fibre lasers of various attributes throughout this dissertation. The fundamental characteristics of the ultrawideband SOA such as the gain and noise figure (NF) are successfully investigated by utilizing the conventional method of measurement and described in the earlier part of the thesis. A result of high gain with small NF drawbacks and coverage of three communication bandwidth regions of more than 120 nm, of short (S-) band, conventional (C-) band and long (L-) band is achieved. The ultra-wide band coverage of the telecommunication bandwidth has made the ultra-wideband SOA a promising candidate to reduce dependency on the costly rare earth doped fibres that dominates the communication industry nowadays. The characterization technique of double-pass configuration of the ultra-wideband SOA also has attained attractive results on gain and NF values. This characterization is crucial in later experiments regarding ultra-wideband SOA fibre laser generation. The ultra-wideband fibre lasers are realized by utilizing three experimental configurations; by using arrayed-waveguide grating (AWG), by using three wavelength selective filters of fibre Bragg gratings (FBGs), and by applying nonlinear effect in the optical fibre of stimulated Brillouin scattering (SBS) effect. The method using AWG produces a 16-channel system of an ultra-wideband multi-wavelength SOA fibre laser. The occurrence of a single wavelength signal of every S-, C- and L-band simultaneously for every selected channel has been the main highlight of this laser configuration. Other than that, this configuration also has the favourable factor of wavelength tunability within the aforementioned bandwidth range. iii The method that deploys three FBGs, representing S-, C- and L-band as the wavelength selective filters, produces three simultaneous signal wavelengths with high average signal-to-noise ratio (SNR) at the maximum drive current of ultra-wideband SOA. The proposed system would find many applications where a wide-band and stable laser source is crucial, such as in communications and sensing. The third method deployed is by applying nonlinear effects into a high nonlinear fibre of dispersion compensating fibre (DCF). This experimental configuration yields three sets of multi-wavelength laser comb of S-, C- and L-band simultaneously, with about 0.08 nm wavelength spacing (equal to 10 GHz in frequency frame) in each wavelength comb. This system has the advantage of the ability to supply many wavelength signals at one time, which is highly demanded in the dense wavelength division multiplexing (DWDM) system application. All the three ultra-wideband SOA fibre laser systems are tested for stability tests of 70 minutes duration running time. This is to prepare for a stable fibre laser system into the network applications. 2015 Thesis NonPeerReviewed application/pdf http://studentsrepo.um.edu.my/6529/1/MASTERS_OF_SCIENCE_NOR_AHYA_BINTI_HASSAN_SGR090096.pdf Hassan, Nor Ahya (2015) Ultra-wideband SOA fibre laser / Nor Ahya Hassan. Masters thesis, University of Malaya. http://studentsrepo.um.edu.my/6529/ |
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Q Science (General) Hassan, Nor Ahya Ultra-wideband SOA fibre laser / Nor Ahya Hassan |
| description |
A comprehensive study has been conducted on an ultra-wideband semiconductor
optical amplifier (SOA) for the generation of ultra-wideband fibre lasers of various
attributes throughout this dissertation. The fundamental characteristics of the ultrawideband
SOA such as the gain and noise figure (NF) are successfully investigated by
utilizing the conventional method of measurement and described in the earlier part of the
thesis. A result of high gain with small NF drawbacks and coverage of three
communication bandwidth regions of more than 120 nm, of short (S-) band, conventional
(C-) band and long (L-) band is achieved. The ultra-wide band coverage of the
telecommunication bandwidth has made the ultra-wideband SOA a promising candidate
to reduce dependency on the costly rare earth doped fibres that dominates the
communication industry nowadays. The characterization technique of double-pass
configuration of the ultra-wideband SOA also has attained attractive results on gain and
NF values. This characterization is crucial in later experiments regarding ultra-wideband
SOA fibre laser generation.
The ultra-wideband fibre lasers are realized by utilizing three experimental
configurations; by using arrayed-waveguide grating (AWG), by using three wavelength
selective filters of fibre Bragg gratings (FBGs), and by applying nonlinear effect in the
optical fibre of stimulated Brillouin scattering (SBS) effect. The method using AWG
produces a 16-channel system of an ultra-wideband multi-wavelength SOA fibre laser.
The occurrence of a single wavelength signal of every S-, C- and L-band simultaneously
for every selected channel has been the main highlight of this laser configuration. Other
than that, this configuration also has the favourable factor of wavelength tunability within
the aforementioned bandwidth range.
iii
The method that deploys three FBGs, representing S-, C- and L-band as the
wavelength selective filters, produces three simultaneous signal wavelengths with high
average signal-to-noise ratio (SNR) at the maximum drive current of ultra-wideband
SOA. The proposed system would find many applications where a wide-band and stable
laser source is crucial, such as in communications and sensing. The third method deployed
is by applying nonlinear effects into a high nonlinear fibre of dispersion compensating
fibre (DCF). This experimental configuration yields three sets of multi-wavelength laser
comb of S-, C- and L-band simultaneously, with about 0.08 nm wavelength spacing
(equal to 10 GHz in frequency frame) in each wavelength comb. This system has the
advantage of the ability to supply many wavelength signals at one time, which is highly
demanded in the dense wavelength division multiplexing (DWDM) system application.
All the three ultra-wideband SOA fibre laser systems are tested for stability tests of
70 minutes duration running time. This is to prepare for a stable fibre laser system into
the network applications. |
| format |
Thesis |
| author |
Hassan, Nor Ahya |
| author_facet |
Hassan, Nor Ahya |
| author_sort |
Hassan, Nor Ahya |
| title |
Ultra-wideband SOA fibre laser / Nor Ahya Hassan
|
| title_short |
Ultra-wideband SOA fibre laser / Nor Ahya Hassan
|
| title_full |
Ultra-wideband SOA fibre laser / Nor Ahya Hassan
|
| title_fullStr |
Ultra-wideband SOA fibre laser / Nor Ahya Hassan
|
| title_full_unstemmed |
Ultra-wideband SOA fibre laser / Nor Ahya Hassan
|
| title_sort |
ultra-wideband soa fibre laser / nor ahya hassan |
| publishDate |
2015 |
| url |
http://studentsrepo.um.edu.my/6529/1/MASTERS_OF_SCIENCE_NOR_AHYA_BINTI_HASSAN_SGR090096.pdf http://studentsrepo.um.edu.my/6529/ |
| _version_ |
1738505927471923200 |
| score |
13.159267 |