Semiconductor Lasers

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FACULTY OF SCIENCE, PHYSICS REASEARCH - Lasers
Optics - Semiconductor Lasers
Semiconductor Lasers - 99.8 of the world
market for lasers (800 million units
2005) - 59 of the monetary value of the
world market (AUD5 billion) The high
volume arises due to their use in
optical storage systems
telecommunications solid state laser
pumping medical therapeutics
inspection, measurement control.
Unlocking Dynamical Diversity Optical Feedback
Effects on Semiconductor LasersDeborah M. Kane
(Editor), K. Alan Shore (Co-Editor)May 2005
John Wiley and Sons Ltd, Chichester
We Research Nonlinear Dynamics in Semiconductor
and Solid State Laser Systems
Applications areas for these systems are secure
communications and random number generators
plus theyre excellent systems in which to study
experimental nonlinear science to transfer to
other areas physiological and financial systems
Further enquiries Prof Deb Kane debkane_at_physics.m
q.edu.au Tel (02)9850 8907
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• Recent Research Highlights
• Proposing new integrated device designs for
  chaotic semiconductor lasers.
• Invention and demonstration of a hybrid
  electronic/optical synchronised chaos
  communication system
• (Optics Express 2009)
• First use of Chaos data analysis to produce
  dynamical maps for experimental output of
  optically injected
• solid state laser systems (Optics Express
  2009).
• New method for defining and measuring the laser
  threshold of semiconductor lasers (J Lightwave
• Technology 2009)

Correlation Dimension Map for an Optically
Injected Solid State laser
Interim Steps in Computer Automated Chaos Data
Analysis of Experimental Laser Output Time Series
Further enquiries Prof Deb Kane debkane_at_physics.m
q.edu.au Tel (02)9850 8907
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Lasers Optics Laser/Particle/Surface
Interactions
Follow on from successful Laser Cleaning Research
Laser Cleaning II Deborah M. Kane (Editor)
November 2006 World Scientific, Singapore
Plane-wave Laser imaged by a microsphere
Project Areas Optical and Materials Properties of
Particles Optical/Laser Techniques for Measuring
the Transmitted Irradiance in
Particle/Surface Interactions Measuring Nanoscale
Motions Optical Surface Profilometry Fundamental
studies of improved laser cleaning
processes Systematic study of new cracking
laser optical damage Combination with
microfluidics Laser Cleaning for Indigenous
Australasian and Oceania Cultural Heritage
Conservation
Further enquiries Prof Deb Kane debkane_at_physics.m
q.edu.au Tel (02)9850 8907
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Research Infrastructure
Laser System
Interference Microscope Optical Surface
Profiler.

Achieving Thermal Coupling Between a Microsphere
Silica Substrate Using an Absorbing Film
Nanoscale surface roughness of highly polished
silica
Further enquiries Prof Deb Kane debkane_at_physics.m
q.edu.au Tel (02)9850 8907
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Nanotechnology and Laser Technology for the
Conservation of Australias Indigenous Art and
Cultural Heritage  
C
A
B
B
Laser removal (circular beam profile) of a
gelatine coating (image left) from a region of
black (A) and white (B) pigment. The boundary
between the uncoated and coated region is marked
with an arrow. Image right shows successful
removal of paraloid from a different section of
the same paintingwhite pigment (B) and red ochre
(C).  
The shell is from a shell necklace that has
suffered smoke damage. Using the excimer laser
facility three regions exposed to increasing
laser fluence, left to right, are shown. It is
possible to obtain an optimum clean with no
damage to the patina of the shell (middle spot).
Excessive laser power does damage the patina
(rightmost spot).    
Aboriginal bark painting, eastern Kimberly
Region,. Thanks to Art Gallery of NSW
Kane DM and Fernandes AJJ (2008). Pulsed Laser
Cleaning Comparing Science with Art Cultural
Heritage Applications, in Phipps CR (ed),
High-Power Laser Ablation VII, , Proceedings of
SPIE Vol.7005 (SPIE, Bellingham, WA,) 700513, pp
1-10. ISBN 9780819472069.   Rainbow serpent bark
painting ans shells Thanks to The Australian
Museum (Mr Colin MacGregor)  
Further enquiries Prof Deb Kane debkane_at_physics.m
q.edu.au Tel (02)9850 8907
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Electric discharge plasmas under development as
Ultraviolet and Extreme ultraviolet incoherent
light sources Highlights from UV/VUV source
research include 1.   US patent awarded in 2003
for high-peak power ultraviolet DBD
lamps. 2.    ARC Linkage Project grant to
develop specific lamps for applications in water
treatment and disinfection. 3.    Australian
representatives in the European Union funded,
COST Action 529 "Efficient Lighting for
the 21st Century". The consortium consists of
more that 60 University and Industry based
members from 18 European countries, and 5 other
associated (non-EU) countries 4.   Industry
sponsored project to develop EUV sources below
100nm based on our platform technology. 5. New
patentable lamp designs under development
Further enquiries Dr Robert Carman rcarman_at_physi
cs.mq.edu.au Tel (02) 9850 7058