Available student project - Radiobiology at the Heavy Ion Accelerator Facility

Research fields

  • Biophysics
  • Engineering in Physics
Cell damage by photons and alpha particles.

Project details

This project aims to develop radiobiology research capability at the Heavy Ion Accelerator Facility. As a new initiative for the accelerator facility, the scope is broadly defined, and allows for a range of student projects. Two specific areas are identified as having priority: (i) Development of an external beam from the accelerator that can be used to irradiate cell cultures and thus study the biological effects of ionizing radiation. (ii) Nuclear physics for proton and heavy-ion therapy.

The general aim in the first case is to understand the effects of radiation on biological systems, thus gaining crucial knowledge that is needed to develop medical applications including cancer therapy and dosimetry. In the second case, we aim to understand the physics relevant for proton and heavy-ion cancer therapy. This second aspect includes both experiment and theory. The project is timely because Australia is poised to introduce its first proton therapy facilities in South Australia and Queensland.

Required background

There is broad scope to this work, and the type of project is changing as the project develops. The external beam theme is developing and refining apparatus designs for a future build. Concerning the hadron therapy theme, we are already working on the physics of relevant nuclear reactions, so student projects will have more specific computational or experimental goals. Students with an interest in nuclear physics, medical physics, radiation effects, radiobiology, computation, and instrumentation design can contribute to this project.

Project suitability

This research project can be tailored to suit students of the following type(s)
  • 3rd year special project
  • PhB (1st year)
  • PhB (2nd or 3rd year)
  • Honours project
  • Vacation scholar

Contact supervisor

Stuchbery, Andrew profile

Other supervisor(s)

Simpson, Edward profile

Kibedi, Tibor profile

Updated:  15 January 2019/ Responsible Officer:  Head of Department/ Page Contact:  Physics Webmaster