Discovery Early Career Researcher Award - Grant ID: DE220101085
Funder
Australian Research Council
Funding Amount
$434,000.00
Summary
3D metafibre optics for advanced imaging. The aim is to design and interface multi-functional metasurfaces with optical fibres by using 3D laser printing technology. The anticipated goal is to develop innovative metafibres interfaced with achromatic meta-lenses, polarisation-selective metasurfaces, and Fourier-space imaging metasurfaces for all-on-fibre achromatic, full-Stokes polarimetric, and Fourier endoscopic imaging, respectively. Expected outcomes include new knowledge in fibre meta-optics ....3D metafibre optics for advanced imaging. The aim is to design and interface multi-functional metasurfaces with optical fibres by using 3D laser printing technology. The anticipated goal is to develop innovative metafibres interfaced with achromatic meta-lenses, polarisation-selective metasurfaces, and Fourier-space imaging metasurfaces for all-on-fibre achromatic, full-Stokes polarimetric, and Fourier endoscopic imaging, respectively. Expected outcomes include new knowledge in fibre meta-optics and a novel metafibre manufacturing platform in a critical sector of the 21st-century economy. The novel ultracompact, flexible, and versatile metafibre technology is expected to have a profound impact on fibre-optic imaging in photonic, biological, and telecommunications applications.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
Discovery Early Career Researcher Award - Grant ID: DE240100507
Funder
Australian Research Council
Funding Amount
$444,471.00
Summary
Integrated active microcantilevers for high-throughput nanometrology. This project aims to develop a new versatile, high-performance microsensor platform and microscopy method for measuring nano-scale structures. The proposed microscopy tool is expected to significantly increase imaging speed and miniaturize system footprint, thereby enabling high-throughput quality control of semiconductor devices. The expected outcome is a highly-scalable and low-cost imaging system that will close the technol ....Integrated active microcantilevers for high-throughput nanometrology. This project aims to develop a new versatile, high-performance microsensor platform and microscopy method for measuring nano-scale structures. The proposed microscopy tool is expected to significantly increase imaging speed and miniaturize system footprint, thereby enabling high-throughput quality control of semiconductor devices. The expected outcome is a highly-scalable and low-cost imaging system that will close the technology gap between fabrication and inspection at the nanoscale. The benefits to Australia should include the potential for commercialization to develop this next-generation microscopy tool in high-value market sectors.Read moreRead less