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Our Research...

Research programs
COE funded
All optical and non-linear signal processing
Using nonlinear optics to perform all-optical signal processing
Microstructured and taperd fibre devices
Microstructured optical fibres exhibt extraordinary guidance properties
Photonic crystals
Photonic crystal structures in low (chalcogenide glass & diamond) and high (Si) index materials
Optical waveguide gratings and slow light
Interfering light in photosensitive materials to create resonant and slow light structures
 
Other funding
Optofluidics
The marriage of two new fields of science: Micro-Photonics + Micro-Fluidics.
Surface plasmon theory & applications
Light in systems containing metallic elements can result in surprising effects.
Supercontinuum generation
Broadband coherent light is generated by short laser pulses and nonlinear effects in a material.

 

The Vision of CUDOS
To develop the experimental and theoretical expertise to design and build linear and nonlinear all-optical signal processing devices, and to miniaturize these, leading to a "photonic chip" believed to be the building blocks for the next generation of optical systems...
Journal publications
The CUDOS@USyd journal publication list is available by year since 2003, the commencement of the CUDOS centre.

CUDOS MOF utilities
The CUDOS MOF Utilities are a software package for simulating microstructured optical fibres (or MOFs, also known as photonic crystal fibres or holey fibres) using the multipole method.
 
 

Authorised by: Prof. Ben Eggleton
Maintained by: Bill Corcoran
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