Characterisation, development and application of novel Ion Beam technology (IBT) to enhance the optical thin film manufacturing process. Manufacture of optical thin film coatings is a difficult and generally inefficient process undertaken within a vacuum chamber. There are many variables which are not easily controlled nor understood in these complex thermodynamic environments. This project aims to advance core knowledge in three critical areas namely an improved understanding of ion beam phy ....Characterisation, development and application of novel Ion Beam technology (IBT) to enhance the optical thin film manufacturing process. Manufacture of optical thin film coatings is a difficult and generally inefficient process undertaken within a vacuum chamber. There are many variables which are not easily controlled nor understood in these complex thermodynamic environments. This project aims to advance core knowledge in three critical areas namely an improved understanding of ion beam physics, new knowledge of the thermodynamic environment used in physical vapour deposition of thin films and new knowedge in the application of Ion beam Technology to optical thin film growth and characteristics.
This project is significant, developing core knowledge and understanding with potential to lead to process efficiency gains, improved optical film characteristics and accessing new areas of research (rf/photoic devices). This project will advance the current state of art in the field of Ion Beam Technology and Ion Beam assisted physical vapour deposition.
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High Precision Silicon Pixel Detectors for High Energy Physics , Synchrotron and Medical Imaging Applications. Australia participates actively in the frontier field of high-energy particle physics to understand the fundamental building blocks of matter, their origins and interactions. This field excites the best minds in the scientific world and provides excellent training. To maintain our position in this field we must continue the development of the powerful instrumentation required for high- ....High Precision Silicon Pixel Detectors for High Energy Physics , Synchrotron and Medical Imaging Applications. Australia participates actively in the frontier field of high-energy particle physics to understand the fundamental building blocks of matter, their origins and interactions. This field excites the best minds in the scientific world and provides excellent training. To maintain our position in this field we must continue the development of the powerful instrumentation required for high-energy experiments. This project will satisfy that role. The application of particle detector expertise to state-of-the-art X-ray imaging detectors for the Australian Synchrotron and medical imaging is a perfect example of fundamental science tools applied to other fields. Australian Synchrotron experiments stand to gain much.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0453432
Funder
Australian Research Council
Funding Amount
$257,250.00
Summary
Support for the Australian Experimental High Energy Physics Program. High energy particle physics studies the most fundamental constituents of matter. This microscopic frontier requires the highest energy and highest intensity particle accelerators. Through the Big Bang Model, high energy physics also sheds light on the development of the very early Universe. It is thus crucial for the understanding of nature at the very largest of scales as well as the very smallest.The ATLAS and Belle experime ....Support for the Australian Experimental High Energy Physics Program. High energy particle physics studies the most fundamental constituents of matter. This microscopic frontier requires the highest energy and highest intensity particle accelerators. Through the Big Bang Model, high energy physics also sheds light on the development of the very early Universe. It is thus crucial for the understanding of nature at the very largest of scales as well as the very smallest.The ATLAS and Belle experiments probe two of the most significant questions in fundamental physics: what is the origin of mass, and why do we live in a universe composed of matter rather than antimatter? This proposal seeks support to maintain access to the international high energy physics program in Europe and Japan.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0230224
Funder
Australian Research Council
Funding Amount
$220,255.00
Summary
Support for the Australian Experimental High Energy Physics Program. High energy particle physics studies the most fundamental constituents of matter. This microscopic frontier requires the highest energy and highest intensity particle accelerators. Through the Big Bang Model, high energy physics also sheds light on the development of the very early Universe. It is thus crucial for the understanding of nature at the very largest of scales as well as the very smallest. The ATLAS and Belle experim ....Support for the Australian Experimental High Energy Physics Program. High energy particle physics studies the most fundamental constituents of matter. This microscopic frontier requires the highest energy and highest intensity particle accelerators. Through the Big Bang Model, high energy physics also sheds light on the development of the very early Universe. It is thus crucial for the understanding of nature at the very largest of scales as well as the very smallest. The ATLAS and Belle experiments probe two of the most significant questions in fundamental physics: what is the origin of mass, and why do we live in a universe composed of matter rather than antimatter? This proposal seeks support to maintain access to the international high energy physics program in Europe and Japan.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775488
Funder
Australian Research Council
Funding Amount
$1,350,000.00
Summary
Support for the Australian Experimental High Energy Physics Program. This project will support physicists in the expected era of discovery in the knowledge of fundamental particles that makes up our Universe. Having participated in developing the giant $½ billion ATLAS experiment, Australian scientists will be making major discoveries in this era. ATLAS will hunt down the Higgs boson, to understand the origin of mass of fundamental particles. ATLAS will also search for particles to explain Dark ....Support for the Australian Experimental High Energy Physics Program. This project will support physicists in the expected era of discovery in the knowledge of fundamental particles that makes up our Universe. Having participated in developing the giant $½ billion ATLAS experiment, Australian scientists will be making major discoveries in this era. ATLAS will hunt down the Higgs boson, to understand the origin of mass of fundamental particles. ATLAS will also search for particles to explain Dark Matter, which makes 25% of our Universe. ATLAS will search for undiscovered laws of nature to help us unify our understanding of the forces of nature. Excellent training, public interest, international cooperation and networking, and national pride will be enhanced by this project.
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Frontier Experiments in High Energy Physics. High energy particle physics studies the most fundamental constituents of matter. This microscopic frontier requires the highest energy and highest intensity particle accelerators. Through the Big Bang Model, high energy physics also sheds light on the development of the very early Universe. It is thus crucial for the understanding of nature at the very largest of scales as well as the very smallest. The ATLAS and Belle experiments probe two of the mo ....Frontier Experiments in High Energy Physics. High energy particle physics studies the most fundamental constituents of matter. This microscopic frontier requires the highest energy and highest intensity particle accelerators. Through the Big Bang Model, high energy physics also sheds light on the development of the very early Universe. It is thus crucial for the understanding of nature at the very largest of scales as well as the very smallest. The ATLAS and Belle experiments probe two of the most significant questions in fundamental physics: what is the origin of mass, and why do we live in a universe composed of matter rather than antimatter?
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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668428
Funder
Australian Research Council
Funding Amount
$295,000.00
Summary
Support for the Australian Experimental High Energy Physics Program. Working at the cutting edge of international research, using facilities and collaborating with scientists of the highest calibre from the world over, provides an outstanding capability for Australian science that cannot be met with local facilities alone. High energy physics is the premier example of successful international collaboration. Search and discovery in fundamental physics is the best training ground for our future sc ....Support for the Australian Experimental High Energy Physics Program. Working at the cutting edge of international research, using facilities and collaborating with scientists of the highest calibre from the world over, provides an outstanding capability for Australian science that cannot be met with local facilities alone. High energy physics is the premier example of successful international collaboration. Search and discovery in fundamental physics is the best training ground for our future scientists. Technology transfer to local companies and training of scientific and technical staff are important outcomes of this project. The Australian public is fascinated by results and discussion about the origins of the Universe, at the centre of this project.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0561010
Funder
Australian Research Council
Funding Amount
$361,693.00
Summary
Support for the Australian Experimental High Energy Physics Program. High energy particle physics studies the most fundamental constituents of matter. This microscopic frontier requires the highest energy and highest intensity particle accelerators. Through the Big Bang Model, high energy physics also sheds light on the development of the very early Universe. It is thus crucial for the understanding of nature at the very largest of scales as well as the very smallest. The ATLAS and Belle experim ....Support for the Australian Experimental High Energy Physics Program. High energy particle physics studies the most fundamental constituents of matter. This microscopic frontier requires the highest energy and highest intensity particle accelerators. Through the Big Bang Model, high energy physics also sheds light on the development of the very early Universe. It is thus crucial for the understanding of nature at the very largest of scales as well as the very smallest. The ATLAS and Belle experiments probe two of the most significant questions in fundamental physics: what is the origin of mass, and why do we live in a universe composed of matter rather than antimatter? This proposal seeks support to maintain access to the international high energy physics program in Europe and Japan.Read moreRead less
Frontier Experiments in High Energy Physics. This project will support physicists in the expected era of discovery in the knowledge of fundamental particles that makes up our Universe. Having participated in developing the giant $½ billion ATLAS experiment, Australian scientists will be making major discoveries in this era. ATLAS will hunt down the Higgs boson, to understand the origin of mass of fundamental particles. It will also search for particles to explain Dark Matter, which makes up 25% ....Frontier Experiments in High Energy Physics. This project will support physicists in the expected era of discovery in the knowledge of fundamental particles that makes up our Universe. Having participated in developing the giant $½ billion ATLAS experiment, Australian scientists will be making major discoveries in this era. ATLAS will hunt down the Higgs boson, to understand the origin of mass of fundamental particles. It will also search for particles to explain Dark Matter, which makes up 25% of our Universe. ATLAS will search for undiscovered laws of nature to help us unify our understanding of the forces of nature. Excellent training and enhhancement of public interest, international cooperation and networking, and national pride will be provided by this project.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347775
Funder
Australian Research Council
Funding Amount
$247,000.00
Summary
Support for the Australian Experimental High Energy Physics Program. High energy particle physics studies the most fundamental constituents of matter. This microscopic frontier requires the highest energy and highest intensity particle accelerators. Through the Big Bang Model, high energy physics also sheds light on the development of the very early Universe. It is thus crucial for the understanding of nature at the very largest of scales as well as the very smallest. The ATLAS and Belle experim ....Support for the Australian Experimental High Energy Physics Program. High energy particle physics studies the most fundamental constituents of matter. This microscopic frontier requires the highest energy and highest intensity particle accelerators. Through the Big Bang Model, high energy physics also sheds light on the development of the very early Universe. It is thus crucial for the understanding of nature at the very largest of scales as well as the very smallest. The ATLAS and Belle experiments probe two of the most significant questions in fundamental physics: what is the origin of mass, and why do we live in a universe composed of matter rather than antimatter? This proposal seeks support to maintain access to the international high energy physics program in Europe and Japan.Read moreRead less