ARC Centre of Excellence for Transformative Meta-Optical Systems. The ARC Centre of Excellence for Transformative Meta-Optical Systems will develop the next-generation of miniaturised optical systems with functionalities beyond what is conceivable today. By harnessing the disruptive concept of meta-optics, the Centre will overcome complex challenges in light generation, manipulation and detection at the nanoscale. The Centre brings together a trans-disciplinary team of world-leaders in science, ....ARC Centre of Excellence for Transformative Meta-Optical Systems. The ARC Centre of Excellence for Transformative Meta-Optical Systems will develop the next-generation of miniaturised optical systems with functionalities beyond what is conceivable today. By harnessing the disruptive concept of meta-optics, the Centre will overcome complex challenges in light generation, manipulation and detection at the nanoscale. The Centre brings together a trans-disciplinary team of world-leaders in science, technology and engineering to deliver scientific innovations in optical systems for the Fourth Industrial Revolution. The research outcomes will underpin future technologies, including real-time holographic displays, artificial vision for autonomous systems to see the invisible, and ultra-fast light-based WiFi.Read moreRead less
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
All-on-chip twisted light modulator for ultrahigh-capacity data processing. The project aims to develop a conceptually new all-on-chip twisted light modulator via photonic integration of a customised twisted-light metasurface with on-chip optical waveguides. The goal is to replace current bulky, slow, and costly spatial light modulators by a compact nanophotonic chip for the generation and detection of multiple twisted-light modes. Project outcomes include new knowledge in photonic integration a ....All-on-chip twisted light modulator for ultrahigh-capacity data processing. The project aims to develop a conceptually new all-on-chip twisted light modulator via photonic integration of a customised twisted-light metasurface with on-chip optical waveguides. The goal is to replace current bulky, slow, and costly spatial light modulators by a compact nanophotonic chip for the generation and detection of multiple twisted-light modes. Project outcomes include new knowledge in photonic integration and 3D meta-optics, and novel nanophotonic devices for twisted light, which will expand applications of twisted light for all-on-chip fibre-optic communications and holographic displays. The ultra-compact, high-capacity, efficient twisted-light modulators are expected to have a practical impact on many photonic applications.Read moreRead less