Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561136
Funder
Australian Research Council
Funding Amount
$376,352.00
Summary
36-megapixel CCD camera for wide-field astronomy. This project aims to design and build a state-of-the-art 36-megapixel charge-coupled device (CCD) camera for wide-field imaging on a robotic telescope at Siding Spring Observatory. The camera will employ a mosaic of two 18-megapixel CCDs, which are amongst the largest ever fabricated. This new facility will have an unprecedented ability to obtain precision photometry over a wide field, and will enable breakthroughs in research into areas as diver ....36-megapixel CCD camera for wide-field astronomy. This project aims to design and build a state-of-the-art 36-megapixel charge-coupled device (CCD) camera for wide-field imaging on a robotic telescope at Siding Spring Observatory. The camera will employ a mosaic of two 18-megapixel CCDs, which are amongst the largest ever fabricated. This new facility will have an unprecedented ability to obtain precision photometry over a wide field, and will enable breakthroughs in research into areas as diverse as detection of extra-solar planets and nearby supernovae. The camera will also lead to collaborative research with ANU's newly-funded Skymapper telescope, as well as the Anglo-Australian Observatory's 6dF and 2dF instruments.Read moreRead less
Development of room temperature diluted magnetic semiconductors for spintronics devices application. Semiconductor spintronics is very likely to have a significant impact on future generations of devices. Until recently, Australian research groups have played a minor role in the field. The proposed program will lead to new discoveries or fundamental advances within semiconductor spintronics or have substantial impact on the progress in this field. The accomplishments of this project can great ....Development of room temperature diluted magnetic semiconductors for spintronics devices application. Semiconductor spintronics is very likely to have a significant impact on future generations of devices. Until recently, Australian research groups have played a minor role in the field. The proposed program will lead to new discoveries or fundamental advances within semiconductor spintronics or have substantial impact on the progress in this field. The accomplishments of this project can greatly increase the scientific understanding of diluted magnetic semiconductors and expand Australia's knowledge base in research in these materials. This program can also be an education platform to provide a number of scientific talents for Australia by intensively training high quality postgraduates at the international level.Read moreRead less
Nanocavities in Si - Structural Evolution and Metal Gettering. Nanocavities represent a novel means of minimising metallic contamination in the active region of Si microelectronic devices. We propose innovative experiments, using in-situ transmission electron microscopy and synchrotron-based x-ray methods, to achieve a fundamental understanding of the processes that govern nanocavity structural evolution and metallic impurity trapping. We seek to develop a patentable technology to enhance impu ....Nanocavities in Si - Structural Evolution and Metal Gettering. Nanocavities represent a novel means of minimising metallic contamination in the active region of Si microelectronic devices. We propose innovative experiments, using in-situ transmission electron microscopy and synchrotron-based x-ray methods, to achieve a fundamental understanding of the processes that govern nanocavity structural evolution and metallic impurity trapping. We seek to develop a patentable technology to enhance impurity trapping efficiency and thus dramatically increase the applicability of this industrially-relevant process.Read moreRead less
Investigation of 1/f noise mechanisms in HgCdTe heterostructure IR photodiodes. Since the performance of any photon detector is defined by its signal to noise ratio, the reduction of noise generating mechanisms is equally important to improvement of the signal. In this project we propose to carry out, for the first time, a comprehensive analysis of noise generating mechanisms in HgCdTe detectors using recently developed, two-dimensional analysis procedure. The main objective of this project is t ....Investigation of 1/f noise mechanisms in HgCdTe heterostructure IR photodiodes. Since the performance of any photon detector is defined by its signal to noise ratio, the reduction of noise generating mechanisms is equally important to improvement of the signal. In this project we propose to carry out, for the first time, a comprehensive analysis of noise generating mechanisms in HgCdTe detectors using recently developed, two-dimensional analysis procedure. The main objective of this project is to prove that 1/f noise in HgCdTe photodetectors is caused by dark current fluctuations in the high electric field regions of the detector structure. The primary outcome of this work will be the first comprehensive two-dimensional device model that can predict 1/f noise in a semiconductor device.Read moreRead less
High efficiency III-V solar cells based on low-dimensional quantum confined heterostructures. There is no doubt that clean and sustainable solar energy is one of the most viable energy sources to address the issues of climate change, global warming and depletion of conventional energy sources. With the great advantages offered by quantum confined nanostructures and nanotechnology, this project may lead to substantial efficiency improvement of current III-V solar cells (already higher efficiency ....High efficiency III-V solar cells based on low-dimensional quantum confined heterostructures. There is no doubt that clean and sustainable solar energy is one of the most viable energy sources to address the issues of climate change, global warming and depletion of conventional energy sources. With the great advantages offered by quantum confined nanostructures and nanotechnology, this project may lead to substantial efficiency improvement of current III-V solar cells (already higher efficiency than Si solar cells), making great contribution to the society and Nation in the areas of science, technology, environment, and economy.Read moreRead less
Quantum Nanotechnology: Concepts to Devices. Just as the technological advances of the past few decades at the micro level fundamentally changed our lives, so too the emerging era of 'quantum nanotechnology' promises to revolutionise our society in the 21st century. This Fellowship will explore and develop critical areas of quantum nanotechnology - absolutely secure communication, nanoscopic level imaging, and exponentially fast computers. Such technology will have far reaching applications in a ....Quantum Nanotechnology: Concepts to Devices. Just as the technological advances of the past few decades at the micro level fundamentally changed our lives, so too the emerging era of 'quantum nanotechnology' promises to revolutionise our society in the 21st century. This Fellowship will explore and develop critical areas of quantum nanotechnology - absolutely secure communication, nanoscopic level imaging, and exponentially fast computers. Such technology will have far reaching applications in all areas of society and provide significant National benefit.Read moreRead less
Characterisation and Modelling of Nanostructured Soft Magnetic Materials for Advanced Electromagnetic Applications. This project bridges the gap between nanomagnetic materials and practical applications. The knowledge generated and the international collaborations with world class scientists established through this cutting-edge research project will strengthen the leading status of Australia in the field of nanoscience and nanotechnology. The research outcomes will stimulate the growth of world ....Characterisation and Modelling of Nanostructured Soft Magnetic Materials for Advanced Electromagnetic Applications. This project bridges the gap between nanomagnetic materials and practical applications. The knowledge generated and the international collaborations with world class scientists established through this cutting-edge research project will strengthen the leading status of Australia in the field of nanoscience and nanotechnology. The research outcomes will stimulate the growth of world class Australian industries and hence the national economy through the commercial manufacturing of hi-tech nanomagnetic materials and innovative smart devices and systems. High quality PhD and honours project students will be trained.Read moreRead less
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
Probing the properties of amorphous semiconductors with swift heavy ion irradiation and synchrotron radiation. This proposal is consistent with Research Priority 3: Frontier Technologies for Building and Transforming Australian Industries and the Priority Goals: Breakthrough Science, Frontier Technologies and Advanced Materials. We seek to deduce and understand the processes operative during swift heavy ion irradiation of amorphous semiconductors to probe fundamental materials properties. Ou ....Probing the properties of amorphous semiconductors with swift heavy ion irradiation and synchrotron radiation. This proposal is consistent with Research Priority 3: Frontier Technologies for Building and Transforming Australian Industries and the Priority Goals: Breakthrough Science, Frontier Technologies and Advanced Materials. We seek to deduce and understand the processes operative during swift heavy ion irradiation of amorphous semiconductors to probe fundamental materials properties. Our results and accompanying scientific insight will broaden the applicability of amorphous semiconductors in advanced technologies, enhance the national research profile, increase the domestic knowledge base and yield skilled, young scientists trained to utilise the Australian Synchrotron.Read moreRead less
Dust Physics: a Challenge in International Thermonuclear Experimental Reactor. This proposal is highly relevant to development of the electricity-producing fusion power plants. The outcomes will contribute to the achievement of greater control, predictability, and cost efficiency of fusion reactors operation. The project falls within the " An Environmentally Sustainable Australia " research priority and will contribute to development of widely available energy source with essentially unlimited ....Dust Physics: a Challenge in International Thermonuclear Experimental Reactor. This proposal is highly relevant to development of the electricity-producing fusion power plants. The outcomes will contribute to the achievement of greater control, predictability, and cost efficiency of fusion reactors operation. The project falls within the " An Environmentally Sustainable Australia " research priority and will contribute to development of widely available energy source with essentially unlimited supply and manageable environmental impact. Read moreRead less