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Searching for Tatooine: the PAVO Planet Hunt

This project is one of the first to hunt for planets in orbit around double-star systems, and it will use a pioneering approach in advanced instrumentation to achieve an unprecedent more...

Supervisor(s): Tuthill, Peter (Professor)

Galactic Paleontology with Metal Poor Stars

Metal-poor stars are fascinating relics coming to us across vast shores of time from the ancient cosmos. In this project, we will make the first ever detailed study of their basic p more...

Supervisor(s): Tuthill, Peter (Professor)

The Stellar Surface Imaging Project

Our powerful new PAVO optical instrument will be used to make the first ever detailed images of the actual surfaces of distant stars. In this project, you will target some of the mo more...

Supervisor(s): Tuthill, Peter (Professor)

The Riddle of the Red Square

This project is a detailed study of one of the most fascinating new nebulae to be discovered in recent years by Astronomers: The Red Square. As a likely imminent supernova precursor more...

Supervisor(s): Tuthill, Peter (Professor)

Brain Network Structure and Dynamics

This research area is concerned with developing better understanding of the structure of the brain, especially through modeling the dynamics and interactions of its neuronal network more...

Supervisor(s): Robinson, Peter (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)

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)

Biosensors and arrays for detection of disease

The ability to attach functional proteins, antibodies and enzymes to surfaces underpins the development of the next generation of implantable medical devices, biosensors and protein more...

Supervisor(s): Bilek, Marcela (Professor)

Implantable Medical Devices

The ability to attach functional proteins, antibodies and enzymes to surfaces underpins the development of the next generation of implantable medical devices, biosensors and protein more...

Supervisor(s): Bilek, Marcela (Professor)

Surface attached enzymes for the production of biomass energy from agricultural waste

The ability to attach functional proteins, antibodies and enzymes to surfaces underpins the development of the next generation of implantable medical devices, biosensors and protein more...

Supervisor(s): Bilek, Marcela (Professor)