Nanoscale nonlinear optics. Advances in nanotechnology have led to the realisation of nanoscale photonic components that enable integration within electronic chips. Now the challenge is to make these components perform computing functions themselves, thus providing ultra-high operation speeds and reducing power consumption. This project will utilize the intensity dependent interaction of light with metal-dielectric nanostructures to establish new processing functions of the photonic components. ....Nanoscale nonlinear optics. Advances in nanotechnology have led to the realisation of nanoscale photonic components that enable integration within electronic chips. Now the challenge is to make these components perform computing functions themselves, thus providing ultra-high operation speeds and reducing power consumption. This project will utilize the intensity dependent interaction of light with metal-dielectric nanostructures to establish new processing functions of the photonic components. Our research underpins integration of photonics in future generations of computers and enables novel applications in subwavelength optical imaging and sensing. This project will therefore strongly enhance the standing of Australia in the field of nanotechnology.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130101448
Funder
Australian Research Council
Funding Amount
$359,446.00
Summary
Nanowaveguides with a twist: shaping and switching of light pulses in modulated nanowaveguide arrays. This project will develop innovative modulated nanowaveguides for real-time spatiotemporal shaping and switching of optical pulses at ultrahigh speed. It will advance the fundamental science of optics at the nanoscale and benefit photonic industries by suggesting lightweight, compact and power efficient devices for ultrafast optical pulse control.