Scaling-up microstructured fibres for terahertz radiation. Terahertz radiation is the last region of the electromagnetic spectrum to be fully utilised. Many applications have been identified but their practicality has been limited by a lack of low-loss flexible waveguides. The waveguides to be developed in this project will build on Australia's existing international lead and investments in photonics as well as extend the dynamic field of microstructured optical fibres, indentified as the 'futur ....Scaling-up microstructured fibres for terahertz radiation. Terahertz radiation is the last region of the electromagnetic spectrum to be fully utilised. Many applications have been identified but their practicality has been limited by a lack of low-loss flexible waveguides. The waveguides to be developed in this project will build on Australia's existing international lead and investments in photonics as well as extend the dynamic field of microstructured optical fibres, indentified as the 'future' of optical fibres. Low-loss flexible waveguides will enable imaging and spectroscopy applications that can reveal and object's internal structure and composition. This will have immediate applications in security, quality control, medical imaging and other safety or industrial applications.Read moreRead less
Cost effective high output polymer fibre optic lighting systems. A new flexible composite polymer can transport light over distances beyond 30 metres within diameters of 5mm to 25mm and still be intrinsically bright. The link between composition, transport efficiency and output will be established. Input studies will include tailored external optics and full integration of bright LED's inside the cable. Prototypes evaluated will include, lighting inside display refrigeration, "on person" safety ....Cost effective high output polymer fibre optic lighting systems. A new flexible composite polymer can transport light over distances beyond 30 metres within diameters of 5mm to 25mm and still be intrinsically bright. The link between composition, transport efficiency and output will be established. Input studies will include tailored external optics and full integration of bright LED's inside the cable. Prototypes evaluated will include, lighting inside display refrigeration, "on person" safety and fashion lighting (including novel jewellery), solar powered LED lighting for remote areas (including roadworks, stand alone signs, developing country and remote rural homes), daylight and lamps together in the one cable, and general lighting. Many of these will be developed by the industry collaborator.Read moreRead less