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Discovery Early Career Researcher Award - Grant ID: DE140100867
Funder
Australian Research Council
Funding Amount
$395,220.00
Summary
Studying the thermodynamics of the quark-gluon plasma at finite temperature and density using lattice techniques. The quark-gluon plasma, a new state of matter consisting of quarks and gluons, is currently the subject of intensive investigation. A striking feature of the results is that the quark-gluon plasma is the most perfect fluid known to mankind. Calculating its 'fluid-like' properties, called the transport properties, theoretically, remains one of the central challenges of the field due t ....Studying the thermodynamics of the quark-gluon plasma at finite temperature and density using lattice techniques. The quark-gluon plasma, a new state of matter consisting of quarks and gluons, is currently the subject of intensive investigation. A striking feature of the results is that the quark-gluon plasma is the most perfect fluid known to mankind. Calculating its 'fluid-like' properties, called the transport properties, theoretically, remains one of the central challenges of the field due to several technical difficulties. This project aims to perform a first ever computation of these properties using Australian supercomputers.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120101187
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Adapting industrial plasma-processing chemistries through electron collisions to meet emerging technological and environmental requirements. This project involves performing experimental measurements to determine how low-energy electrons interact with highly reactive species, namely free radicals. These interactions play important roles in many industrial applications relating to the manufacture of materials.
Discovery Early Career Researcher Award - Grant ID: DE240100625
Funder
Australian Research Council
Funding Amount
$446,700.00
Summary
Integrated slab-mode beam engineering for handheld terahertz systems. Current dominant system architectures for terahertz waves are adapted from other ranges, leading to critical bottlenecks. This project will address this with a new integration platform that is tailored to the particular needs of terahertz waves. This requires advances in the emerging field of micro-scale integrated optics, combined with antenna-theory principles, semiconductor science, and advanced microfabrication to incorpor ....Integrated slab-mode beam engineering for handheld terahertz systems. Current dominant system architectures for terahertz waves are adapted from other ranges, leading to critical bottlenecks. This project will address this with a new integration platform that is tailored to the particular needs of terahertz waves. This requires advances in the emerging field of micro-scale integrated optics, combined with antenna-theory principles, semiconductor science, and advanced microfabrication to incorporate active devices. Novel spatially-dependent dispersion engineering techniques will also be pioneered for phased-array-free beamforming. This will enable a broad variety of all-in-one handheld systems for practical applications of terahertz waves such as noninvasive standoff sensing and self-aligning wireless links.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150100564
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Vascularized tumour models to elucidate the delivery of nanomedicine agents. This inter-disciplinary project aims to develop advances in in vitro models aimed at elucidating the delivery and transport of diagnostic and therapeutic nanomedicine agents in tumour tissues. The project aims to build on advanced tissue engineering principles and state-of-the-art micro-fabrication technologies to remove the limitation associated with animal studies and provide unprecedented mechanistic insights into th ....Vascularized tumour models to elucidate the delivery of nanomedicine agents. This inter-disciplinary project aims to develop advances in in vitro models aimed at elucidating the delivery and transport of diagnostic and therapeutic nanomedicine agents in tumour tissues. The project aims to build on advanced tissue engineering principles and state-of-the-art micro-fabrication technologies to remove the limitation associated with animal studies and provide unprecedented mechanistic insights into the delivery, transport and binding of nanomedicines into tumour tissues.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150100091
Funder
Australian Research Council
Funding Amount
$341,000.00
Summary
Traffic on DNA: interplay between RNA polymerases and DNA-bound proteins. The DNA inside the cell is not just a repository of information, but is an active player in how that information is used. Proteins bind to defined locations on the DNA to control which genes are active, and genes are expressed by RNA polymerases that track along the DNA. Collisions between RNA polymerases and DNA-bound proteins can remove the proteins or block the polymerase. How can these essential processes safely coexis ....Traffic on DNA: interplay between RNA polymerases and DNA-bound proteins. The DNA inside the cell is not just a repository of information, but is an active player in how that information is used. Proteins bind to defined locations on the DNA to control which genes are active, and genes are expressed by RNA polymerases that track along the DNA. Collisions between RNA polymerases and DNA-bound proteins can remove the proteins or block the polymerase. How can these essential processes safely coexist on the DNA? The project aims to integrate systematic experiments using well-defined genetic components and mathematical modelling to understand the 'design' features of DNA and proteins that minimise these traffic problems. A better understanding could inform new strategies for manipulation of gene expression.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120102028
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Integrated gas photonics. Many physical scientists believe that the next technological revolution in society will arise from exploitation of the unique features of the quantum world. The project will develop new technology at the boundary between photonics and atomic physics aimed at addressing fundamental challenges in quantum information and sensing.
Discovery Early Career Researcher Award - Grant ID: DE170100752
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
Fully-integrated fibre-based platform for a quantum information network. This project aims to combine Australia’s pioneering work developing specialised atom-filled optical fibres with world-leading quantum information storage protocols to probe the extreme limits of atom-light interactions. This will enable the creation of a compact, robust and modular node to efficiently store and process packets of optical quantum information. The node will integrate directly with current communications infra ....Fully-integrated fibre-based platform for a quantum information network. This project aims to combine Australia’s pioneering work developing specialised atom-filled optical fibres with world-leading quantum information storage protocols to probe the extreme limits of atom-light interactions. This will enable the creation of a compact, robust and modular node to efficiently store and process packets of optical quantum information. The node will integrate directly with current communications infrastructure, enabling the creation of a quantum Internet - the vital missing ingredient needed to overcome experimental hurdles that limit quantum technologies. This project is expected to enable the rapid uptake of quantum technology, boosting Australia’s capacity in this burgeoning field.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120101494
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Terahertz sensing of proteins associated with Alzheimer's disease. This project aims to use terahertz radiation to study the proteins associated with Alzheimer's Disease (AD) in order to contribute towards the development of an accurate, non-invasive diagnostic tool. The project will increase our knowledge of the causes of AD, improve its diagnosis, and allow for better treatment to target the symptoms of AD.