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Mechanism and control of diamond and graphene-based nanostructures using direct electric-field and laser excitation

To investigate the sculpting of carbon-based structures through controlled electric field and/or laser excitation, through first-principles based calculations. more...

Supervisor(s): Stampfl, Catherine (Professor)

Ground-state cooling and high-fidelity detection of large ion crystals in a Penning trap for quantum simulations

The understanding of the dynamics of many-body quantum systems is one of the most challenging problems in physics today. Advancing our knowledge of these systems can lead to signifi more...

Supervisor(s): Wolf, Robert (Dr), Biercuk, Michael J. (Professor)

Quantum Control with Trapped Ions

This project aims to develop novel techniques for the control of quantum systems using trapped atomic ions. more...

Supervisor(s): Biercuk, Michael J. (Professor)

Quenching of radicals and micro-mixing in micro-combustion

This project will investigate the dominant issue of radical quenching on solid surfaces in a micro-combustor as well as micro-mixing with the objective of enabling flame stabilisati more...

Supervisor(s): Masri, Assaad (Professor)

Quantum Control Theory

We address the challenge of creating efficient, error-resilient quantum control approaches for use in future quantum technologies. more...

Supervisor(s): Biercuk, Michael J. (Professor)

Quantum Simulation and Large-Scale Entanglement

Developing techniques for the study of large-scale quantum simulators based on crystals of trapped atomic ions. more...

Supervisor(s): Biercuk, Michael J. (Professor)

Quantum Enabled Sensing

Development of new quantum-enabled sensors providing unrivalled performance across a range of applications. more...

Supervisor(s): Biercuk, Michael J. (Professor)

Molecular insights into a novel mammalian oxygen-sensing pathway

Oxygen (O2) is a vital biological resource most prominently known for its role as the final electron acceptor in aerobic respiration and, as such, adequate molecular mechanisms are more...

Supervisor(s): White, Mark (Dr), Mackay, Joel (Professor)

Development of next-generation fuel delivery devices for thermal energy conversion

This project will apply state of the art experimental diagnostic and computational methods to analyse the potential of using electrostatic charge as a means to delivery fuels in mic more...

Supervisor(s): Kourmatzis, Agisilaos (Dr)

Diagnosis of high powered pulsed plasmas for the synthesis of new materials

New high speed optical and electronic diagnostics methods will be developed to probe ultra fast plasma phenomena in promising new plasma discharges for the synthesis of metastable m more...

Supervisor(s): Bilek, Marcela (Professor)