Discovery Early Career Researcher Award - Grant ID: DE130101432
Funder
Australian Research Council
Funding Amount
$372,520.00
Summary
Dissipative soliton lasers: innovative approach to high-energy femtosecond pulse generation. The generation of high-energy, ultrashort pulses will benefit various sectors in science and technology, including fabrication of nanomaterials and precise laser surgery. The dissipative soliton approach is presently recognised as one of the most useful techniques for the design of laser systems. This project will provide a roadmap for designing a novel class of laser systems that can generate high-energ ....Dissipative soliton lasers: innovative approach to high-energy femtosecond pulse generation. The generation of high-energy, ultrashort pulses will benefit various sectors in science and technology, including fabrication of nanomaterials and precise laser surgery. The dissipative soliton approach is presently recognised as one of the most useful techniques for the design of laser systems. This project will provide a roadmap for designing a novel class of laser systems that can generate high-energy femtosecond pulses.Read moreRead less
X-ray Ghost Imaging and Tomography. This project aims to achieve safer, faster, and cheaper 3D X-ray imaging through a technique known as ghost imaging. X-ray imaging provides valuable information about internal structures, however, X-rays are carcinogenic and exposure (or dose) should be limited. Ghost imaging is an unconventional technique developed with visible light that has many potential benefits over conventional imaging. This research group are world leaders in ghost imaging and expect t ....X-ray Ghost Imaging and Tomography. This project aims to achieve safer, faster, and cheaper 3D X-ray imaging through a technique known as ghost imaging. X-ray imaging provides valuable information about internal structures, however, X-rays are carcinogenic and exposure (or dose) should be limited. Ghost imaging is an unconventional technique developed with visible light that has many potential benefits over conventional imaging. This research group are world leaders in ghost imaging and expect to develop software and hardware techniques to realise its potential and extend it to ghost tomography. The focus of this project is on reducing cancer risk in medical imaging, and allowing real-time quality control for 3D printing in safety-critical industries such as aerospace.Read moreRead less
Insight from Darkness: Nanophotonics for real-time phase imaging. This project aims to develop ultrathin surfaces patterned on the nanoscale for extracting information from optical wavefields. These devices can be designed to provide real-time phase contrast imaging of transparent objects. This capability would open up the possibility of live-cell imaging with no expensive optical components and no, or minimal, computational post-processing. The planar configuration is designed to be compatible ....Insight from Darkness: Nanophotonics for real-time phase imaging. This project aims to develop ultrathin surfaces patterned on the nanoscale for extracting information from optical wavefields. These devices can be designed to provide real-time phase contrast imaging of transparent objects. This capability would open up the possibility of live-cell imaging with no expensive optical components and no, or minimal, computational post-processing. The planar configuration is designed to be compatible with next-generation lab-on-a-chip technologies and permit rapid throughput diagnostics with potential applications in biomedicine and materials science. Expected project outcomes may also underpin fundamental advances in understanding the interaction of light with nanostructures.Read moreRead less