The Chemical Evolution of the Universe. This program will combine data from the innovative Australian Wide Field Spectrograph with data from the Wide Field Camera 3 of the NASA Hubble Space Telescope and with data from the instruments on the Keck and Subaru large ground-based telescopes. We hope to gain an unprecedented understanding of the chemical evolution of the Universe. This project will raise the international profile of innovative Australian instrumentation technologies, and continue o ....The Chemical Evolution of the Universe. This program will combine data from the innovative Australian Wide Field Spectrograph with data from the Wide Field Camera 3 of the NASA Hubble Space Telescope and with data from the instruments on the Keck and Subaru large ground-based telescopes. We hope to gain an unprecedented understanding of the chemical evolution of the Universe. This project will raise the international profile of innovative Australian instrumentation technologies, and continue our program of internationally recognised cutting-edge research. This research will provide several Australian students with training on world-class space and ground-based telescopes, contributing to the scientific knowledge base of Australia.Read moreRead less
The Chemistry of the Milky Way: From Micro- to Macro-Physics. The physics of galaxy formation in the early Universe is driving the development of billion-dollar investments such as the Next Generation Space Telescope and the Square Kilometre Array. Our team is undertaking a complementary `near-field cosmology' approach, systematically deconstructing the one galaxy in the Universe for which exquisite chemical and kinematical `fingerprints' of its formation remain observable on an individual star ....The Chemistry of the Milky Way: From Micro- to Macro-Physics. The physics of galaxy formation in the early Universe is driving the development of billion-dollar investments such as the Next Generation Space Telescope and the Square Kilometre Array. Our team is undertaking a complementary `near-field cosmology' approach, systematically deconstructing the one galaxy in the Universe for which exquisite chemical and kinematical `fingerprints' of its formation remain observable on an individual star-by-star basis - our own Milky Way. The unique synergy between computational cosmology, galaxy evolution, and stellar nucleosynthesis, intrinsic to our team, allows Australia to be at the forefront of theoretical galaxy formation research, in addition to the leadership role the observational community already enjoys.Read moreRead less
Calibrating Cosmology: The Near-Field Approach to Galaxy Formation. Understanding the formation and evolution of structure in the early Universe continues to elude astronomers. Studying these earliest epochs is the driver for billion-dollar investments like the Next Generation Space Telescope and the Square Kilometre Array (with Australia as a primary partner). Our complementary 'near-field cosmology' project is unique, blending strengths in computational cosmology, stellar nucleosynthesis, and ....Calibrating Cosmology: The Near-Field Approach to Galaxy Formation. Understanding the formation and evolution of structure in the early Universe continues to elude astronomers. Studying these earliest epochs is the driver for billion-dollar investments like the Next Generation Space Telescope and the Square Kilometre Array (with Australia as a primary partner). Our complementary 'near-field cosmology' project is unique, blending strengths in computational cosmology, stellar nucleosynthesis, and optical astronomy, to 'deconstruct' the formation history of the one galaxy with detailed chemical and kinematical information - our own Milky Way. Combining theory and observation, cosmology and nucleosynthesis, we will produce the template for galaxy formation, providing the anchor for 'far-field' cosmology.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346856
Funder
Australian Research Council
Funding Amount
$950,000.00
Summary
High Performance Computing Infrastructure Upgrade. The aim of the High Performance Computing Facility is to operate a world class facility as measured by both computational power and client satisfaction. This proposal seeks to increase the current computational power of the existing Victorian High Performance Compting Facility by doubling the current capacity. The combination of a large number of very fast processors and a very fast interconnect makes this facility ideal for modelling and solv ....High Performance Computing Infrastructure Upgrade. The aim of the High Performance Computing Facility is to operate a world class facility as measured by both computational power and client satisfaction. This proposal seeks to increase the current computational power of the existing Victorian High Performance Compting Facility by doubling the current capacity. The combination of a large number of very fast processors and a very fast interconnect makes this facility ideal for modelling and solving science and engineering problems beyond the scope of installed HPC systems. The facility will be linked to other HPC systems in Victoria and across Australia to create an evolving cluster computing "meta-centre" that links computing resources together.
Read moreRead less
The application of Markov Chain Monte Carlo methods to the search for space-time variations of fundamental constants. This work will establish Australia as the world leader in one of the most vibrant topics in current physics research. The results obtained could reveal extra dimensions in our universe and provide the first experimental evidence for string theories. The proposed research will also fundamental new information about dark matter and dark energy, the two most pressing problems in c ....The application of Markov Chain Monte Carlo methods to the search for space-time variations of fundamental constants. This work will establish Australia as the world leader in one of the most vibrant topics in current physics research. The results obtained could reveal extra dimensions in our universe and provide the first experimental evidence for string theories. The proposed research will also fundamental new information about dark matter and dark energy, the two most pressing problems in cosmology. The solutions of these problems will revolutionise our understanding of the universe. This program involves collaborations with major international institutes and provides a superb training-ground for Australian postgraduate students.Read moreRead less