Discovery Early Career Researcher Award - Grant ID: DE240100150
Funder
Australian Research Council
Funding Amount
$459,000.00
Summary
How galactic mergers and their stellar survivors shaped our Milky Way. This project aims to investigate the role of mergers with smaller galaxies in shaping the Milky Way by developing tools to identify stellar survivors of mergers. This project expects to produce an all-sky map of stellar survivors based on the largest search within Australian and international survey data and perform innovative comparisons with simulations to constrain the role of mergers. Expected outcomes are aligned with th ....How galactic mergers and their stellar survivors shaped our Milky Way. This project aims to investigate the role of mergers with smaller galaxies in shaping the Milky Way by developing tools to identify stellar survivors of mergers. This project expects to produce an all-sky map of stellar survivors based on the largest search within Australian and international survey data and perform innovative comparisons with simulations to constrain the role of mergers. Expected outcomes are aligned with the decadal plan for Australian astronomy and can open new avenues for global astronomy and contracts for upcoming billion-dollar surveys. The project should cement Australia’s role as a leader in a new era of galactic exploration and provide benefits beyond astronomy by training Australians to assess complex big data.Read moreRead less
Star Formation Through Cosmic Time. This project aims to determine how turbulence and magnetic fields control the formation of stars. This is crucial to understand the formation of galaxies, planets and ultimately life. The expected outcomes are the most detailed simulations of star formation in the early Universe and in galaxies today. This project has the potential to transform our understanding of cosmic structure formation, providing crucial input for Australian and international facilities ....Star Formation Through Cosmic Time. This project aims to determine how turbulence and magnetic fields control the formation of stars. This is crucial to understand the formation of galaxies, planets and ultimately life. The expected outcomes are the most detailed simulations of star formation in the early Universe and in galaxies today. This project has the potential to transform our understanding of cosmic structure formation, providing crucial input for Australian and international facilities and surveys, and models of galaxy, star and planet formation. Training Australia's future generation of Big Data analysts, as well as the development of interdisciplinary tools involving Chemical Modelling, Plasma Physics, Statistics and High Performance Computing are key benefits.Read moreRead less