Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0989347
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
CYCLOPS - A Better Way to Find Extrasolar Planets. The primary scientific driver for this new facility is the search for planets orbiting other stars. Australian astronomers, and the Anglo-Australian Telescope, have played a leading role in this new frontier for astronomy, detecting 25 of the 250-odd extrasolar planets known to orbit nearby stars. The CYCLOPS project brings together a team of leading Australian astronomers to build on this track record with a new facility that further advances A ....CYCLOPS - A Better Way to Find Extrasolar Planets. The primary scientific driver for this new facility is the search for planets orbiting other stars. Australian astronomers, and the Anglo-Australian Telescope, have played a leading role in this new frontier for astronomy, detecting 25 of the 250-odd extrasolar planets known to orbit nearby stars. The CYCLOPS project brings together a team of leading Australian astronomers to build on this track record with a new facility that further advances Australia's capabilities in both this field, and several other high-profile astronomical endeavours: including the study of seismology in stellar interiors, the detailed measurement of elemental abundances in stars throughout our Galaxy, and the mapping of spot features on the surfaces of stars.Read moreRead less
Nanoindentation-induced Phase Transformations and Physical Property Changes in Semiconductors. The motivation for this study derives from recent findings of intriguing phase and structural changes induced in semiconductors under a small indenter when it is pressed into the surface. Using an array of sophisticated techniques, in this study we plan to explore for the first time the structural changes that can be induced in semiconductors on the nanoscale and to study what novel properties, partic ....Nanoindentation-induced Phase Transformations and Physical Property Changes in Semiconductors. The motivation for this study derives from recent findings of intriguing phase and structural changes induced in semiconductors under a small indenter when it is pressed into the surface. Using an array of sophisticated techniques, in this study we plan to explore for the first time the structural changes that can be induced in semiconductors on the nanoscale and to study what novel properties, particularly electrical, such nanoscale regions may have. Detailed nanoindentation studies will focus on understanding and exploiting deformation of silicon, to open up an exciting prospect: the development of an entirely new, ultra-high-density information storage process.Read moreRead less
Realistic models of permeation in ion channels. Ion channels are formed by proteins in cell membranes and provide pathways for fast and controlled flow of selected ions. This activity generates action potentials in nerves and muscles that forms the basis of all movement, sensation and thought processes. Recent determination of the crystal structure of channel proteins has enabled construction of models that can relate channel function to its structure--necessary for understanding their operati ....Realistic models of permeation in ion channels. Ion channels are formed by proteins in cell membranes and provide pathways for fast and controlled flow of selected ions. This activity generates action potentials in nerves and muscles that forms the basis of all movement, sensation and thought processes. Recent determination of the crystal structure of channel proteins has enabled construction of models that can relate channel function to its structure--necessary for understanding their operation and seeking cures for diseases caused by their malfunction. This project aims to develop accurate ion-protein-water interactions for permeation models based on stochastic and molecular dynamics simulations using both classical and quantum mechanical methods.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL0992306
Funder
Australian Research Council
Funding Amount
$2,753,841.00
Summary
Nanowire Quantum Structures for Next Generation Optoelectronics. This innovative project on quantum nanowire optoelectronics will bring international kudos to Australian science in a hot research area of immense international interest, allow us to build new capabilities in nanotechnology, strengthen international linkages and lead to training of a world class high tech work force for Australian industries. This project has the potential to lead to fundamental discoveries and technologies of imm ....Nanowire Quantum Structures for Next Generation Optoelectronics. This innovative project on quantum nanowire optoelectronics will bring international kudos to Australian science in a hot research area of immense international interest, allow us to build new capabilities in nanotechnology, strengthen international linkages and lead to training of a world class high tech work force for Australian industries. This project has the potential to lead to fundamental discoveries and technologies of immense international and industrial interest. In addition to high impact publications, this project has the potential to lead to high tech start up companies and patentable technologies of benefit to Australian industry. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347466
Funder
Australian Research Council
Funding Amount
$262,000.00
Summary
Australian e-Astronomy. An explosion in the rate of data acquisition in disciplines such as astronomy will require new database structures and management systems. Scientists require fast access and analysis of data from many different telescopes, instruments and theoretical modelling packages. The new directions being explored internationally are based on datagrids, where individual nodes house the physical data archives and expertise, but are networked into a unified system, providing open a ....Australian e-Astronomy. An explosion in the rate of data acquisition in disciplines such as astronomy will require new database structures and management systems. Scientists require fast access and analysis of data from many different telescopes, instruments and theoretical modelling packages. The new directions being explored internationally are based on datagrids, where individual nodes house the physical data archives and expertise, but are networked into a unified system, providing open access to all astronomers. Australian e-Astronomy will provide Phase 1 of a project to develop an astronomy datagrid in Australia, linking to the powerful programs which have just commenced in Europe, UK and the USA.Read moreRead less
Hierarchical modeling of protein interactions. Protein interactions play a central role in function and structural organization of cells. Their elucidation is essential for a better understanding of many cellular processes from signal transduction to enzyme inhibition. The aim of this project is to utilize the unprecedented powers of current supercomputers in developing a hierarchical model of protein interactions. The method combines Brownian dynamics at large distances and long time scales ....Hierarchical modeling of protein interactions. Protein interactions play a central role in function and structural organization of cells. Their elucidation is essential for a better understanding of many cellular processes from signal transduction to enzyme inhibition. The aim of this project is to utilize the unprecedented powers of current supercomputers in developing a hierarchical model of protein interactions. The method combines Brownian dynamics at large distances and long time scales with molecular dynamics at small distances and shorter times. Applications to both membrane proteins (blocking of ion channels by toxins and drugs) and globular proteins (ligand binding to receptors and protein association) will be considered.Read moreRead less
Dynamics of Nuclear Fusion: Evolution Through a Complex Multi-Dimensional Landscape. The key questions in the fusion of heavy nuclei form an interlocking puzzle, which can be resolved using our recently developed analysis concepts and measurement techniques. The newly completed, unique, and highly efficient superconducting fusion product separator, together with Australian's Heavy Ion Accelerator, will be used to unlock the puzzle and reveal how fusing nuclei evolve in a multi-dimensional landsc ....Dynamics of Nuclear Fusion: Evolution Through a Complex Multi-Dimensional Landscape. The key questions in the fusion of heavy nuclei form an interlocking puzzle, which can be resolved using our recently developed analysis concepts and measurement techniques. The newly completed, unique, and highly efficient superconducting fusion product separator, together with Australian's Heavy Ion Accelerator, will be used to unlock the puzzle and reveal how fusing nuclei evolve in a multi-dimensional landscape. This will impact on the emerging fields of superheavy element formation, physics with rare isotope beams, and on coupling-assisted quantum tunnelling. This project will maintain Australia's world-leading position in the current race to develop a quantitative understanding of fusion.
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Special Research Initiatives - Grant ID: SR0567380
Funder
Australian Research Council
Funding Amount
$111,380.00
Summary
International data exchange for global gravitational wave astronomy. The aim is to develop software tools to efficiently combine and share large gravitational wave datasets from around the world, leveraging existing data grid and replication technologies (Globus and LDR). This will greatly improve the access of Australian scientists to gravitational wave data, thereby facilitating gravitational wave science in this country.
Development of high performance wide-bandgap polar oxide electronic and optoelectronic devices. The research and development of high performance electronic and optoelectronic devices based on polar semiconductors have numerous practical applications in future communication systems and power electronic network. This project aims to generate exciting breakthrough science for novel polar oxide devices. The technologies developed through this project may lead to immediate applications and commercial ....Development of high performance wide-bandgap polar oxide electronic and optoelectronic devices. The research and development of high performance electronic and optoelectronic devices based on polar semiconductors have numerous practical applications in future communication systems and power electronic network. This project aims to generate exciting breakthrough science for novel polar oxide devices. The technologies developed through this project may lead to immediate applications and commercialization of high performance devices in sensing, detection and communication, bringing enormous economic benefit for the Nation. The international collaboration will provide invaluable resources for both scientific research and technology development and keep Australia at the forefront in this field.Read moreRead less
Low temperature fabrication of silicon-based thin film transistors (TFTs) for flat panel displays - an entirely new approach. This project represents an entirely new approach to low temperature crystallization of amorphous silicon, and its application to TFT fabrication in flat panel displays, and involves a partnership with the Australian high-tech company, WRiota. The research is in a field of high national priority, namely nanotechnology, since the technology is based on materials modificati ....Low temperature fabrication of silicon-based thin film transistors (TFTs) for flat panel displays - an entirely new approach. This project represents an entirely new approach to low temperature crystallization of amorphous silicon, and its application to TFT fabrication in flat panel displays, and involves a partnership with the Australian high-tech company, WRiota. The research is in a field of high national priority, namely nanotechnology, since the technology is based on materials modification at the nanoscale by nanoindentation. This project will further provide valuable opportunities for a number of research students and ECRs to gain experience in both the industrial and academic worlds and skills needed for Australia's nanotechnology workforce.Read moreRead less