New materials and structures for next generation optical fibres. A soft glass optical fibre capability of critical importance to Australia's industrial and scientific capability will be established. This facility addresses a range of the National Research Priorities, most notably Defence, and brings fundamentally important technology to Australia. The proposed research capability strategically complements existing Australian silica-based fibre expertise and infrastructure. The aim is to develop ....New materials and structures for next generation optical fibres. A soft glass optical fibre capability of critical importance to Australia's industrial and scientific capability will be established. This facility addresses a range of the National Research Priorities, most notably Defence, and brings fundamentally important technology to Australia. The proposed research capability strategically complements existing Australian silica-based fibre expertise and infrastructure. The aim is to develop soft glass fibres for defence applications, and to develop fibre-based solutions for emerging applications in bionanophotonics. A key attraction of the platform technology proposed is its adaptability for testing concepts without requiring the support of large-scale fabrication and production industries.Read moreRead less
Paradigm Shift in Mid-IR Fibre Laser. This project introduces a paradigm shift in 3.5µm mid-IR fibre lasers. A new laser process will be investigated to obtain high-power, simple and robust mid-IR fibre laser design. We will use advanced spectroscopy to characterize the fibre laser dynamics, computer modelling to optimize the laser design, and demonstrate the concept experimentally. The new design will enable agile, high precision polymer processing tailored to the unique absorption lines of car ....Paradigm Shift in Mid-IR Fibre Laser. This project introduces a paradigm shift in 3.5µm mid-IR fibre lasers. A new laser process will be investigated to obtain high-power, simple and robust mid-IR fibre laser design. We will use advanced spectroscopy to characterize the fibre laser dynamics, computer modelling to optimize the laser design, and demonstrate the concept experimentally. The new design will enable agile, high precision polymer processing tailored to the unique absorption lines of carbon-hydrogen bonds in different polymers where there is currently a lack of high power, high brightness low-cost light sources. It will also open the door for very high-resolution laser assisted glass 3D-printing. The project will give Australia a new edge in advanced manufacturing.Read moreRead less