Probing new physics with atomic parity violation. This project aims to provide a new level of rigour in tests of the standard model of particle physics at low energies, and to reveal or more tightly constrain new particles or forces. This will involve the development of state-of-the-art atomic theory techniques and collaboration with world-leading experimental groups. The expected outcomes and benefits include a breakthrough in the precision of atomic theory calculations, new insights into nucle ....Probing new physics with atomic parity violation. This project aims to provide a new level of rigour in tests of the standard model of particle physics at low energies, and to reveal or more tightly constrain new particles or forces. This will involve the development of state-of-the-art atomic theory techniques and collaboration with world-leading experimental groups. The expected outcomes and benefits include a breakthrough in the precision of atomic theory calculations, new insights into nuclear magnetic structure, improved determination of fundamental particle physics parameters, stronger ties with the international experimental community, enhancing Australian leadership and expertise, and high-level training of the next generation of scientists.Read moreRead less
Next generation lasers for short-reach optical fibre communication. This project aims to develop next-generation laser systems for multimode fibre-optic communication systems, by leveraging recently developed techniques for measuring and controlling the spatial properties of light. These techniques will provide new insights into the physics of the lasers themselves, as well as overcoming fundamental limitations which have traditionally hindered their operation at high speed. The expected outcome ....Next generation lasers for short-reach optical fibre communication. This project aims to develop next-generation laser systems for multimode fibre-optic communication systems, by leveraging recently developed techniques for measuring and controlling the spatial properties of light. These techniques will provide new insights into the physics of the lasers themselves, as well as overcoming fundamental limitations which have traditionally hindered their operation at high speed. The expected outcome of this project is the inclusion of these techniques in the development and operation of future generations of fibre communication systems. Creating new classes of laser systems, which can scale to large bit rates, will enable the growth in this area to be sustained into the future.Read moreRead less
Turbulent cascades in superfluid Flatland. This project aims to answer open questions in turbulence by stirring many tiny whirlpools (vortices) into a superfluid Bose-Einstein condensate. It seeks to determine how vortex dynamics redistribute energy across broad length scales in superfluids, how turbulence arises from instabilities, and how turbulence redistributes energy in multicomponent superfluids. The outcomes of this project will elucidate the links between quantum and classical fluids, an ....Turbulent cascades in superfluid Flatland. This project aims to answer open questions in turbulence by stirring many tiny whirlpools (vortices) into a superfluid Bose-Einstein condensate. It seeks to determine how vortex dynamics redistribute energy across broad length scales in superfluids, how turbulence arises from instabilities, and how turbulence redistributes energy in multicomponent superfluids. The outcomes of this project will elucidate the links between quantum and classical fluids, and provide unambiguous tests of theoretical models in real-world systems. These results will be beneficial to the understanding of the physics of quantum superfluids, and will inform the engineering of quantum-enhanced devices that utilise trapped superfluid media for precision sensing.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210100934
Funder
Australian Research Council
Funding Amount
$439,082.00
Summary
Taming the light: full control in polarisation, space, and time. This project aims to develop two prototype optical beam shaping systems, culminating in the demonstration of new high-power optical fibre amplifiers. This novel ability to control all the properties of light enables the generation of optical beams that were only theoretical ideas but never previously implemented experimentally. This advanced technology can potentially open new ways in which objects can be probed using light. Expect ....Taming the light: full control in polarisation, space, and time. This project aims to develop two prototype optical beam shaping systems, culminating in the demonstration of new high-power optical fibre amplifiers. This novel ability to control all the properties of light enables the generation of optical beams that were only theoretical ideas but never previously implemented experimentally. This advanced technology can potentially open new ways in which objects can be probed using light. Expected outcomes include the creation of an optical platform that the optical community at large may utilise for their specific applications. Besides the intellectual property benefits of such optical devices directly, this project should bridge the gap between the developed knowledge and commercial opportunities.Read moreRead less
Novel devices for spatial light transformation. The aim of this project is to develop new optical instrumentation for spatially transforming light. This research expects to find solutions to problems that have thus far been out of reach by replacing what would traditionally be a human optical systems designer with computer algorithms. The expected outcomes include the development of three new devices as well as a set of design, fabrication and characterisation procedures that offer higher perfor ....Novel devices for spatial light transformation. The aim of this project is to develop new optical instrumentation for spatially transforming light. This research expects to find solutions to problems that have thus far been out of reach by replacing what would traditionally be a human optical systems designer with computer algorithms. The expected outcomes include the development of three new devices as well as a set of design, fabrication and characterisation procedures that offer higher performance, increased robustness and scalability. This should improve accessibility of this technology and provide benefits to a wide range of applications, including astronomical and biomedical imaging, telecommunications, as well as quantum and classical optical signal processing.Read moreRead less
Time reversed optics. The development of technology to precisely control how light travels through space and time yields the ability to deliver light through objects in ways which would not traditionally be possible and hence opens new applications. This project aims to develop new programmable optical systems for transforming the spatial and temporal properties of light, leveraging recent advances in optical beam shaping. Expected outcomes of this project include the construction and testing of ....Time reversed optics. The development of technology to precisely control how light travels through space and time yields the ability to deliver light through objects in ways which would not traditionally be possible and hence opens new applications. This project aims to develop new programmable optical systems for transforming the spatial and temporal properties of light, leveraging recent advances in optical beam shaping. Expected outcomes of this project include the construction and testing of two new types of optical systems. This should provide significant benefits in the areas of biomedical imaging, telecommunications, advanced manufacturing and both classical and quantum optical information processing.Read moreRead less
Securing the quantum internet with high-dimensional quantum systems. This project aims to develop experimental and theoretical tools for increasing security in the future quantum networks. This project expects to generate new knowledge in the area of quantum communication by leveraging on the properties of high-dimensional quantum systems. Expected outcomes of this project include novel protocols for quantum secret sharing that are resistant to experimental noise and an experimental implementati ....Securing the quantum internet with high-dimensional quantum systems. This project aims to develop experimental and theoretical tools for increasing security in the future quantum networks. This project expects to generate new knowledge in the area of quantum communication by leveraging on the properties of high-dimensional quantum systems. Expected outcomes of this project include novel protocols for quantum secret sharing that are resistant to experimental noise and an experimental implementation of such protocols. This should provide significant benefits to the development of the quantum internet and its security.Read moreRead less
Planet Formation at Solar System Scales with the James Webb Space Telescope. Planetary systems like our own form within vast disks of primordial gas and dust around newborn stars. This project will observe such disks spanning a range of ages with the James Webb Space Telescope to reveal the detailed in-situ physics of planet-forming disks themselves. We will deliver the sharpest-ever infrared images in astronomy, exploiting the only Australian-designed instrument on the spacecraft: the Aperture ....Planet Formation at Solar System Scales with the James Webb Space Telescope. Planetary systems like our own form within vast disks of primordial gas and dust around newborn stars. This project will observe such disks spanning a range of ages with the James Webb Space Telescope to reveal the detailed in-situ physics of planet-forming disks themselves. We will deliver the sharpest-ever infrared images in astronomy, exploiting the only Australian-designed instrument on the spacecraft: the Aperture Masking Interferometer. This yields new physics for actively growing protoplanets, carved rings and gaps in disks, and gravitationally sculpted patterns of leftover cometary debris. Confronting state-of-the-art models with these data will immediately yield profound insights into planetary system formation, including our own.Read moreRead less
Airborne ultrafine particles in Australian cities. There is an acute deficiency of knowledge in Australia on urban airborne ultrafine particles, originating from transport and other anthropogenic sources, which pose significant health and environmental risks. The aim of this project is to address this deficiency by an extensive multi-city, cross-disciplinary study using state of the art instrumentation and data analytic techniques. The outcome will be an in depth, quantitative insight into the c ....Airborne ultrafine particles in Australian cities. There is an acute deficiency of knowledge in Australia on urban airborne ultrafine particles, originating from transport and other anthropogenic sources, which pose significant health and environmental risks. The aim of this project is to address this deficiency by an extensive multi-city, cross-disciplinary study using state of the art instrumentation and data analytic techniques. The outcome will be an in depth, quantitative insight into the characteristics of the particles, their sources and spatial and temporal variation across different urban areas and time scales. Further, the impacts of changing fuels, vehicle technologies, and climate on future trends of the particles will be elucidated.Read moreRead less