Theoretical physics

Much of the theoretical work in the School compliments the experimental programs in areas such as the transport studies in semiconductors, photonics and optical communications.

One of the most exciting areas of modern theoretical physics is the modelling of the behaviour of complex systems such as climate patterns and the turbulent flow of fluids. RSPhysSE is one of the major players in the ARC Research Network for Complex Systems with many of our researchers undertaking research in this field.

The School also has strong research interests in Nonlinear optics and solitons, developing basic theories of solitons for optical systems that including all-optical information transmission lines and ultra-short pulse lasers. This work also extends to the design of specific novel planar and fibre light processing devices, including those with the potential for commercialisation.

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Potential student research projects

You could be doing your own research into theoretical physics. Below are some examples of student physics research projects available in our school.

Stochastic dynamics of interacting systems and integrability

There are many interesting physical statistical systems which never reach thermal equilibrium. Examples include surface growth, diffusion processes or traffic flow. In the absence of general theory of such systems a study of particular models plays a very important role. Integrable systems provide examples of such systems where one can analyze time dynamics using analytic methods.

A/Prof Vladimir Mangazeev

Continuous gravitational waves: new methods for new discoveries

The next big discovery in gravitational wave astronomy may be a first detection of continuous gravitational waves from rapidly-spinning neutron stars. This projects aims to develop the data analysis methods needed for such a discovery.

Dr Karl Wette, Distinguished Prof Susan Scott

A computational method to detect and quantify symmetry

Apply methods from topological data analysis to derive a new approach to quantifying the geometric symmetries of three-dimensional shapes. 

Dr Vanessa Robins

Impact of nuclear structure on dark matter direct detection

Quantum many-body modelling of the atomic nucleus will help us understand how dark matter particles interact with atomic nuclei, as well as how many scattering events we can expect in underground laboratory search for dark matter. 

Ms Raghda Abdel Khaleq, Dr Navneet Krishnan, Professor Cedric Simenel

Please browse our full list of available physics research projects to find a student research project that interests you.