The Australian Research Data Commons (ARDC) invites you to participate in a short survey about your
interaction with the ARDC and use of our national research infrastructure and services. The survey will take
approximately 5 minutes and is anonymous. It’s open to anyone who uses our digital research infrastructure
services including Reasearch Link Australia.
We will use the information you provide to improve the national research infrastructure and services we
deliver and to report on user satisfaction to the Australian Government’s National Collaborative Research
Infrastructure Strategy (NCRIS) program.
Please take a few minutes to provide your input. The survey closes COB Friday 29 May 2026.
Complete the 5 min survey now by clicking on the link below.
Dark Matter Discovery. Dark matter research is fundamental breakthrough science, thus its National and Community benefits can only be indirect. This, nevertheless, does not reduce the importance of these benefits. The proposed program strengthens Australian fundamental science by extending it in a new direction, and considerably boosts the quality of theoretical dark matter research in Australia. Since a large part of the proposed work is expected to be performed in international collaboratio ....Dark Matter Discovery. Dark matter research is fundamental breakthrough science, thus its National and Community benefits can only be indirect. This, nevertheless, does not reduce the importance of these benefits. The proposed program strengthens Australian fundamental science by extending it in a new direction, and considerably boosts the quality of theoretical dark matter research in Australia. Since a large part of the proposed work is expected to be performed in international collaboration, positive results will increase the Australian presence on the international astro-particle physics scene. Successful students involved in this project are also expected to assume leading roles in international dark matter research.Read moreRead less
The Essence of QCD Vacuum Structure. This first-principles study of quantum field theory will elucidate an outstanding mystery of modern particle physics. Understanding confinement is recognized as one of the top 10 Physics Questions to Ponder for a Millennium or Two. In support of the National Research Priorities, new scientific data visualization techniques will be transferred to industry, facilitating smart information use. Further economic benefits are realized through the training and devel ....The Essence of QCD Vacuum Structure. This first-principles study of quantum field theory will elucidate an outstanding mystery of modern particle physics. Understanding confinement is recognized as one of the top 10 Physics Questions to Ponder for a Millennium or Two. In support of the National Research Priorities, new scientific data visualization techniques will be transferred to industry, facilitating smart information use. Further economic benefits are realized through the training and development of expertise in high-performance parallel computing, promoting an innovation culture and economy. The opportunity for young Australian Honours and Postgraduate students to work at the forefront of nuclear and particle theory is an obvious social benefit.
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Novel Fermion Actions for Lattice Gauge Theory. The Standard Model of the universe is founded on quantum field theories in which gauge bosons mediate the forces between fermions, the constituents of matter. For example, the gluon of Quantum Chromodynamics (QCD) mediates the strong interactions between quarks as they compose protons, and neutrons. The only way to reveal the long-distance properties of this fundamental gauge theory from first principles is to numerically simulate the theory on a s ....Novel Fermion Actions for Lattice Gauge Theory. The Standard Model of the universe is founded on quantum field theories in which gauge bosons mediate the forces between fermions, the constituents of matter. For example, the gluon of Quantum Chromodynamics (QCD) mediates the strong interactions between quarks as they compose protons, and neutrons. The only way to reveal the long-distance properties of this fundamental gauge theory from first principles is to numerically simulate the theory on a space-time lattice. Simulating fermions on a lattice has proved very challenging. This project will explore novel and innovative improved fermion algorithms for the general problem of gauge theories on the lattice.Read moreRead less
Origins of our Universe. The present proposal will study the origins of our Universe, which is one of the grand challenges of 21st century physics. As such it will utilise insights and discoveries in many areas of physics, ranging from string theory and particle physics at the highest energies, to x-ray, optical and radio astronomy. The research program will add to our understanding of a fundamental branch of science - extending it in new directions - thereby considerably boosting the quality of ....Origins of our Universe. The present proposal will study the origins of our Universe, which is one of the grand challenges of 21st century physics. As such it will utilise insights and discoveries in many areas of physics, ranging from string theory and particle physics at the highest energies, to x-ray, optical and radio astronomy. The research program will add to our understanding of a fundamental branch of science - extending it in new directions - thereby considerably boosting the quality of cosmology and theoretical physics research in Australia. In concert with our international collaborations, work arising from this fellowship will enhance the Australian presence on the international cosmology, astro-particle, and theoretical physics scene.
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A programme to study quarkonium-like states at ATLAS. Particle physics, the study of the fundamental building blocks of matter, has pioneered the use of large collaborations --- hundreds of scientists working in dozens of countries --- to solve difficult research problems. Australian groups have contributed to several such experiments, studying cosmic rays, neutrinos, and broken symmetries, as well as developing ATLAS, a vast experiment dedicated to understanding the origin of mass. This projec ....A programme to study quarkonium-like states at ATLAS. Particle physics, the study of the fundamental building blocks of matter, has pioneered the use of large collaborations --- hundreds of scientists working in dozens of countries --- to solve difficult research problems. Australian groups have contributed to several such experiments, studying cosmic rays, neutrinos, and broken symmetries, as well as developing ATLAS, a vast experiment dedicated to understanding the origin of mass. This project seeks to use ATLAS for a new purpose: searching for exotic mesons. Our existing commitment to ATLAS provides an opportunity to develop this as a new avenue of fundamental research in this country.Read moreRead less