Salary (AUD): Level A - $83,468 - $113,262 p.a. plus 17% super (*PhD entry-level $105,518 p.a. plus super)
- Join our science center and build a remarkable research portfolio at our university, advancing research in gravitational waves and extreme matter
- Collaborate with leading researchers while developing your own independent research initiatives
- Salary packaging, subsidised health and wellbeing services, fitness and cultural clubs, Myki discounts, and a 25% discount on graduate courses to our staff and their immediate families!
About the Role
The Australian Research Council (ARC) Centre of Excellence for Gravitational Wave Discovery invites applications for a role based at our university, a key collaborator among eight universities collaborating through our science center. Established in 2017 following the landmark detection of gravitational waves, our center seeks to deepen our understanding of black holes and the extreme physics of warped spacetime, with discoveries poised to drive the next generation of scientific innovation.
This role spans two of our project's research programs: Detection, which focuses on gravitational wave data analysis and pulsar timing, and Extreme Matter, exploring physics of bulk matter at nuclear density. You will join a team led by our professor and our assistant professor, engaging in collaborative projects across the project's nodes while also having the space to develop your own independent research initiatives.
Examples of existing activities include:
- Observational searches for continuous gravitational waves in the audio band using advanced signal processing techniques such as hidden Markov models (Program: Detection).
- Radio and X-ray pulsar timing studies to probe the physics of neutron star interiors and compact object accretion, as well as detect nanohertz gravitational waves (Programs: Detection, Extreme Matter).
- First-principles theoretical modelling of the superfluid and superconducting interiors of neutron stars, and the origin and evolution of their magnetic fields, to make fundamental discoveries about bulk matter at nuclear density, including the nuclear equation of state (Program: Extreme Matter).
This position offers a unique platform to develop your research and contribute to groundbreaking discoveries in gravitational wave science and extreme matter physics.
Your responsibilities will include:
- Significantly contribute towards the research effort of the team and develop research expertise with an increasing degree of autonomy.
- Undertake original, rigorous, scholarly research in gravitational wave discovery and astrophysics, with an emphasis on the project's Detection and Extreme Matter research programs.
- Collaborate on this research with members of the center and, where appropriate, members of the LIGO-Virgo-KAGRA Scientific Collaboration.
- Contribute to and publish academic papers and other scholarly outputs to a high academic standard in accordance with the research expectations of our university.
- Actively participate in research seminars and conferences to disseminate research findings as opportunities arise.
- Contribute to the preparation of, or prepare individually where appropriate, research proposal submissions to internal or external funding bodies as relevant.
- Contribute to and assist in the co-supervision and training of research students.
Who We Are Looking For
We are seeking a highly motivated researcher with a demonstrated research record and sound publication background, coupled with an ambition to build an impactful academic career.
With excellent organisational skills and the ability to lead research projects independently, you thrive in collaborative, multidisciplinary settings. Your communication skills and experience engaging with industry and professional bodies make you adept at fostering valuable partnerships and working effectively with diverse teams.
You will also have:
- Completion (or near completion) of a PhD or equivalent in physics, mathematics, electrical engineering, or a related discipline.
- A demonstrated aptitude for research, with a sound publication record in relevant areas, commensurate with experience and opportunities.
- Demonstrated ability to prepare research reports and manuscripts for publication.
- Strong evidence of ability and desire to build an academic research career trajectory.
- Demonstrated ability to engage with relevant professional and industry bodies and stakeholders to foster collaborative partnerships.
- Demonstrated ability to develop, administer and see through to completion appropriately designed research projects with limited supervision.
For further information regarding responsibilities and requirements, please refer to the attached PD.
This role requires that the successful candidate must undergo and maintain an up-to-date Working with Children Check. This is essential to guarantee a secure environment for all individuals at the University. In the case the selected candidate doesn't have a valid Working with Children Check, they will be able to apply for the WWCC as part of the initial onboarding procedures.
Please note: Visa sponsorship is available for this position.
Your New Team - “The ARC Centre of Excellence for Gravitational Wave Discovery“
This project centre is a collaborative Centre with eight partner institutions.
Research fellows benefit from significant resources, including our $5.2M supercomputer, and participate in multi-institutional gravitational-wave projects. They also have opportunities to collaborate in the LIGO-Virgo-Kagra and Pulsar Timing Array projects.
Our university's School of Physicsis one of Australia's leading Physics Schools. It has achieved this status through the high quality of its research and teaching programs. The School offers a wide range of physics subjects to undergraduate and postgraduate students, and performs research in the following areas: Astrophysics, Atomic, Molecular and Optical Physics, Experimental Condensed Matter Physics, Experimental Particle Physics, Materials Science, Physical Biosciences, Theoretical Condensed Matter Physics and Theoretical Particle Physics.
The School also plays a major role in the Australian Synchrotron research program, and in the development of the Stawell Underground Physics Laboratory.
What We Offer You!
In addition, we offer the opportunity to be part of a vibrant community and enjoy a range of benefits, including generous leave provisions, salary packaging, health and well-being services and discounts on graduate courses.
