The New Dimensions of the Quantum Universe. This Fellowship will help build and strengthen significant world-class research capacity at the frontier of fundamental science. More students will be motivated to pursue careers in science, increasing the number of talented, world-class science graduates in Australia. It will forge strong research links both locally and internationally so as to enhance existing networks and create new ones. It will greatly enhance Australia's standing in particle phys ....The New Dimensions of the Quantum Universe. This Fellowship will help build and strengthen significant world-class research capacity at the frontier of fundamental science. More students will be motivated to pursue careers in science, increasing the number of talented, world-class science graduates in Australia. It will forge strong research links both locally and internationally so as to enhance existing networks and create new ones. It will greatly enhance Australia's standing in particle physics, the epitome of Big Science, and garner new respect from one of the world's most influential scientific communities. Having this kind of world-class research in Australia, will also help foster public education and advance the public understanding of fundamental science.
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Searching for Supersymmetry in the Universe with the A Toroidal Lagre Hadron Collider ApparatuS (ATLAS) experiment at the Large Hadron Collider. Australian researchers have been involved with the A Toroidal Lagre Hadron Collider ApparatuS (ATLAS) experiment at the Large Hadron Collider since the early 1990's. They have had significant roles in ATLAS hardware design and construction, software development, and in the deployment of a data computing grid, thereby paving the way for groundbreaking di ....Searching for Supersymmetry in the Universe with the A Toroidal Lagre Hadron Collider ApparatuS (ATLAS) experiment at the Large Hadron Collider. Australian researchers have been involved with the A Toroidal Lagre Hadron Collider ApparatuS (ATLAS) experiment at the Large Hadron Collider since the early 1990's. They have had significant roles in ATLAS hardware design and construction, software development, and in the deployment of a data computing grid, thereby paving the way for groundbreaking discoveries surrounding the fundamental laws and origin of our universe. By performing a search for Higgs bosons, required in many models of particle physics but which have so far not been observed, this research embodies the final step on this road to discovery. The huge publicity surrounding the discovery potential at the Large Hadron Collider will raise the international awareness and stature of basic research in Australia.Read moreRead less
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
High energy neutrino astrophysics together with accretion flows into black holes. Neutrinos are very weakly interacting elementary particles that are opening a new view on astrophysical objects such as supernovae and active galactic nuclei (neutrino astronomy). Studies of astrophysical neutrino production, propagation and terrestrial detection will be made. This will shed light on the astrophysics of the sources as well as probing propagation effects such as neutrino oscillations. A distinct pro ....High energy neutrino astrophysics together with accretion flows into black holes. Neutrinos are very weakly interacting elementary particles that are opening a new view on astrophysical objects such as supernovae and active galactic nuclei (neutrino astronomy). Studies of astrophysical neutrino production, propagation and terrestrial detection will be made. This will shed light on the astrophysics of the sources as well as probing propagation effects such as neutrino oscillations. A distinct programme will study a large discrepancy in the energy balance for matter accreting into a black hole. Previous work of Buzzi and Hines will be extended to investigate whether plasma wave energy carried into the black hole can explain the discrepancy. 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
High-energy probes of dense matter and distorted spacetime. This is an ambitious but achievable program with the potential for results which will be highly significant to physicists worldwide. The expected outcomes have the potential to alter our understanding of fundamental physics, and will demonstrate that Australia's high-energy research ability is on par with the world's best. The techniques of X-ray astronomy are increasingly a standard part of the professional astronomer's toolkit, althou ....High-energy probes of dense matter and distorted spacetime. This is an ambitious but achievable program with the potential for results which will be highly significant to physicists worldwide. The expected outcomes have the potential to alter our understanding of fundamental physics, and will demonstrate that Australia's high-energy research ability is on par with the world's best. The techniques of X-ray astronomy are increasingly a standard part of the professional astronomer's toolkit, although Australia has a limited track record in recent years. The international collaborations that this project will build and maintain will help to improve access to, and utilisation of, multi-million dollar international satellite observatories by local observers.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
Discovering New Particle Physics with Dark Matter and Astrophysical Neutrinos. This project will place Australia at the forefront of pure basic research, and will forge connections with key international institutions. What is the Universe made of? How did it evolve? We address fundamental questions about our Universe, drawing on recent and forthcoming experimental data. We will contribute to Australia's skill base via the training of the best and brightest postgraduate students. These studen ....Discovering New Particle Physics with Dark Matter and Astrophysical Neutrinos. This project will place Australia at the forefront of pure basic research, and will forge connections with key international institutions. What is the Universe made of? How did it evolve? We address fundamental questions about our Universe, drawing on recent and forthcoming experimental data. We will contribute to Australia's skill base via the training of the best and brightest postgraduate students. These students will be equipped with the skills to act as original thinkers on general problems in the wider community. Fundamental questions about the nature of our Universe engage the intellectual curiosity of the general public and inspire the next generation of scientists.Read moreRead less
Branes and unification. This project will explore theories which hypothesis that our universe is a 3-dimensional mem-(brane) residing in higher dimensional space. We will construct completely realistic theories and find ways to test them experimentally. This project is at the forefront of international developments in our understanding of the universe - an area that has grown in importance following the construction of the Large Hadron Collider at the European Giant accelerator laboraroty. The p ....Branes and unification. This project will explore theories which hypothesis that our universe is a 3-dimensional mem-(brane) residing in higher dimensional space. We will construct completely realistic theories and find ways to test them experimentally. This project is at the forefront of international developments in our understanding of the universe - an area that has grown in importance following the construction of the Large Hadron Collider at the European Giant accelerator laboraroty. The project will expose postgraduate students to exciting developments in this fascinating field pf physics.Read moreRead less
Leading the Australian High Energy Physics Program into a New Era of Discovery. In this project, Australia's high energy physics program lead scientist will focus on coordination of the major ATLAS experiment at the newest particle accelerator the LHC, in its critical first years of operation from the end of 2007. The Fellowship will provide for participation in future developments of the field internationally, crucial due the very long lead times involved. Finally, the project will take advanta ....Leading the Australian High Energy Physics Program into a New Era of Discovery. In this project, Australia's high energy physics program lead scientist will focus on coordination of the major ATLAS experiment at the newest particle accelerator the LHC, in its critical first years of operation from the end of 2007. The Fellowship will provide for participation in future developments of the field internationally, crucial due the very long lead times involved. Finally, the project will take advantage of well developed linkages to develop an accelerator science program in Australia, in support of future operation and developments of the Australian Synchrotron as well as future HEP.Read moreRead less