Discovery Early Career Researcher Award - Grant ID: DE200101041
Funder
Australian Research Council
Funding Amount
$423,573.00
Summary
On-Chip Terahertz Nanophotonics for Single Molecule Spectroscopy. This project aims to address fundamental limitations of in-vivo terahertz spectroscopy by developing modular, low-cost, efficient chip-based devices that concentrate and generate intense terahertz fields in nanometer volumes. This project expects to develop new knowledge in the areas of terahertz physics, nonlinear optics and biospectroscopy using several innovative terahertz nano-focusing techniques. Expected outcomes of this pro ....On-Chip Terahertz Nanophotonics for Single Molecule Spectroscopy. This project aims to address fundamental limitations of in-vivo terahertz spectroscopy by developing modular, low-cost, efficient chip-based devices that concentrate and generate intense terahertz fields in nanometer volumes. This project expects to develop new knowledge in the areas of terahertz physics, nonlinear optics and biospectroscopy using several innovative terahertz nano-focusing techniques. Expected outcomes of this project include providing improved techniques to interface terahertz fields to photonic nanostructures and performing in-vivo terahertz spectroscopy of single molecules. This should provide significant benefits in biochemistry and drug research, as well as telecommunications.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100846
Funder
Australian Research Council
Funding Amount
$418,388.00
Summary
Ordering photon energy carriers for efficient upconversion. This project aims to tackle the major challenge of upconversion nanosystems – their brightness. It will centre on building a donor/acceptor-ordered nanosystem to improve the energy transfer efficiency in hybrid nanomaterials. This ordered system will significantly improve the brightness of hybrid nanoparticles at low irradiance. Expected outcomes include a fundamental understanding of energy transfer mechanisms at sub-nm scales and a ne ....Ordering photon energy carriers for efficient upconversion. This project aims to tackle the major challenge of upconversion nanosystems – their brightness. It will centre on building a donor/acceptor-ordered nanosystem to improve the energy transfer efficiency in hybrid nanomaterials. This ordered system will significantly improve the brightness of hybrid nanoparticles at low irradiance. Expected outcomes include a fundamental understanding of energy transfer mechanisms at sub-nm scales and a new strategy to brighten the upconversion nanomaterials. This project should push upconversion nanoscience to a new generation and provide significant benefits in ultra-sensitive biomolecular assays and in vivo bioimaging.Read moreRead less
Terahertz lasers in the fight against illicit substances. This project aims to investigate the application of cutting-edge terahertz laser technology with new spectroscopic methods, for detection of illicit substances. Using a collaborative approach, the project aims to bring together expertise in laser physics, spectroscopy, law enforcement and instrumentation, and seeks to develop new sources and detection protocols which will offer new capabilities to law enforcement, aiding in detection and ....Terahertz lasers in the fight against illicit substances. This project aims to investigate the application of cutting-edge terahertz laser technology with new spectroscopic methods, for detection of illicit substances. Using a collaborative approach, the project aims to bring together expertise in laser physics, spectroscopy, law enforcement and instrumentation, and seeks to develop new sources and detection protocols which will offer new capabilities to law enforcement, aiding in detection and identification protocols for illicit substances.Read moreRead less
Unshackling solitons through ultimate dispersion control. The project aims to generate and investigate several novel families of self-stabilising optical pulses by using a unique fibre laser we recently devised. By developing the associated theoretical models, the team will transform conceptual and experimental knowledge of nonlinear physics, providing deep insights into fibre lasers and the pulses they can emit. The expected outcomes are a complete understanding of entirely novel families of op ....Unshackling solitons through ultimate dispersion control. The project aims to generate and investigate several novel families of self-stabilising optical pulses by using a unique fibre laser we recently devised. By developing the associated theoretical models, the team will transform conceptual and experimental knowledge of nonlinear physics, providing deep insights into fibre lasers and the pulses they can emit. The expected outcomes are a complete understanding of entirely novel families of optical pulses, and of the degree to which the energy required to generate these pulses can be reduced. Reducing this energy means that these pulses can perform the same function at lower power, which will enable the emergence of new applications that will play powerful roles in the 21st-century economy.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100509
Funder
Australian Research Council
Funding Amount
$436,482.00
Summary
Going Fourth: ruling light with pure-quartic solitons. This project aims to develop a novel integrated high-energy light source through the combination of nanoscience and optics. The core research of this project addresses the energy limitation inherent to the current technology which has hindered its use in real applications. Expected outcomes include new knowledge, with publication in world-class scientific journals, and disruptive technological capabilities in miniaturized photonics. The expe ....Going Fourth: ruling light with pure-quartic solitons. This project aims to develop a novel integrated high-energy light source through the combination of nanoscience and optics. The core research of this project addresses the energy limitation inherent to the current technology which has hindered its use in real applications. Expected outcomes include new knowledge, with publication in world-class scientific journals, and disruptive technological capabilities in miniaturized photonics. The expected benefit is to generate high-energy pulses from a battery powered micro-chip that could enhance spectroscopy sensing devices for real-world applications, outside laboratories. This project will strengthen Australian capabilities and expertise in cutting-edge nanotechnology and photonics.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100070
Funder
Australian Research Council
Funding Amount
$368,446.00
Summary
Optical wavelength conversion in nonlinear dielectric nano-resonators. This project aims to uncover new opportunities to change the colour of light on the nanoscale, taking advantage of revolutionary advances in high-precision nano-fabrication. It will bring deeper understanding of the interaction between light and matter in dielectric resonators with sizes smaller than the visible light wavelength. This is expected to open a pathway for new telecommunication and microscopy-related technologies ....Optical wavelength conversion in nonlinear dielectric nano-resonators. This project aims to uncover new opportunities to change the colour of light on the nanoscale, taking advantage of revolutionary advances in high-precision nano-fabrication. It will bring deeper understanding of the interaction between light and matter in dielectric resonators with sizes smaller than the visible light wavelength. This is expected to open a pathway for new telecommunication and microscopy-related technologies and move towards increasing energy efficiency, scalability and security of optical communication networks of the future.Read moreRead less
Catching the fast waves: high speed RF sensing using Brillouin scattering. This project aims to develop a room temperature approach to fast sensing of microwave electromagnetic waves by harnessing stimulated Brillouin Scattering (SBS), simultaneously achieving high frequency range, high resolution and high-speed performance. This project expects to generate new knowledge in microwave photonics and SBS, specifically elucidating the transient temporal response of SBS. Expected outcomes of this pro ....Catching the fast waves: high speed RF sensing using Brillouin scattering. This project aims to develop a room temperature approach to fast sensing of microwave electromagnetic waves by harnessing stimulated Brillouin Scattering (SBS), simultaneously achieving high frequency range, high resolution and high-speed performance. This project expects to generate new knowledge in microwave photonics and SBS, specifically elucidating the transient temporal response of SBS. Expected outcomes of this project include a proof of concept RF sensor that has multi-Gigahertz real-rime instantaneous bandwidth with high-resolution that can be miniaturized on to a chip. This compact RF sensor, will play a vital role for situational awareness in space, defence and communications applications. Read moreRead less
Measuring uncertainty in global housing markets and its risk to Australia. This project aims to develop and construct a measure of systemic risk for the national real-estate markets in Australia, and its main trading partners, namely China, Japan, New Zealand, United Kingdom and United States of America. Recently developed methodology will be used to investigate how real estate risks migrate across these countries over time, and during periods of financial turbulence. This methodology is intende ....Measuring uncertainty in global housing markets and its risk to Australia. This project aims to develop and construct a measure of systemic risk for the national real-estate markets in Australia, and its main trading partners, namely China, Japan, New Zealand, United Kingdom and United States of America. Recently developed methodology will be used to investigate how real estate risks migrate across these countries over time, and during periods of financial turbulence. This methodology is intended to be employed as part of a market stability surveillance program and for assessing the impact of real-estate risk on the overall economy. Early detection of the onset of future housing bubble collapses would be of significant benefit to policy makers, Australia’s trading partners, the real estate industry and ultimately home buyers.Read moreRead less
Shear stimulated Brillouin microscopy for cell mechanobiology. This project aims to develop novel technology for non-contact imaging of micro-mechanical properties in cells and tissues to answer fundamental questions of cell mechnanobiology. Based on principles of Brillouin light scattering, the project takes advantage of a radio-frequency lock-in detection scheme. The project will result in a real-time, high-sensitivity, non-contact 3D imaging solution for spatial characterisation of cell's loc ....Shear stimulated Brillouin microscopy for cell mechanobiology. This project aims to develop novel technology for non-contact imaging of micro-mechanical properties in cells and tissues to answer fundamental questions of cell mechnanobiology. Based on principles of Brillouin light scattering, the project takes advantage of a radio-frequency lock-in detection scheme. The project will result in a real-time, high-sensitivity, non-contact 3D imaging solution for spatial characterisation of cell's local stiffness and compressibility. This will underpin the advancement of knowledge in the area of cell mechanobiology and the investigation of diseases, where microscale changes in cell mechanical properties lead to cell dysfunction and apoptosis.Read moreRead less