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Resolving Galaxy Evolution

In this project we aim to answer some of the outstanding questions in the physics of galaxy formation by using a newly developed instrument, the Sydney-AAO Multi-object Integral fie more...

Supervisor(s): Croom, Scott (Professor)

Does the Universe have vortex motions?

The project is to carry out computer simulations for a new instrument concept – hexabundles - that will see “first light” in 2010 on the Very Large Telescope in Ch more...

Supervisor(s): Bland-Hawthorn, Joss (Professor)

The Cosmic Growth of Super-Massive Black Holes

In the heart of every massive galaxy is a super-massive black hole (a million to a billion times the mass of the Sun) that is built up in mass over cosmic time by gas accretion. Usi more...

Supervisor(s): Croom, Scott (Professor)

Smart Photonic Systems for Extremely Large Telescopes

Astrophotonics: work in a team that is developing cutting edge technologies for the new generation of extremely large telescopes. more...

Supervisor(s): Bland-Hawthorn, Joss (Professor)

Gravitational Microlensing Time Delay

This project will explore gravitational microlensing time delays, determining the impact of stellar masses on the signal from bursty sources, like gamma ray or fast radio bursts. more...

Supervisor(s): Lewis, Geraint F. (Professor)

The impact of non-standard dark matter on cosmology

This project will explore the impact of non-standard dark matter, that can evolve and decay, on the growth of structure in an expanding universe. more...

Supervisor(s): Lewis, Geraint F. (Professor)

Self-Assembly and Self-Organization in Complex Systems

The project involves the study of the fundamental processes of self-assembly and self-organization that appear in many natural and synthetic systems. more...

Supervisor(s): Zomaya, Albert Y. (Professor)