We are currently looking for PhD candidates to complete their research training at our laboratory, Griffith University’s Quantum Optics and Information Laboratory. Several PhD Scholarships are available to work on quantum nonlocality, metrology, and foundations, as detailed below:

1. Controlling quantum nonlocality in complex scenario: Quantum technologies and quantum foundations are deeply rooted in quantum nonlocality, referring to the strong correlations between distant quantum physical systems. Nonlocality has been studied mostly in two-party scenarios. This PhD project aims to understand and realise multiparty scenarios. It expects to create significant new knowledge on complex quantum networks, generating new nonlocality forms. Anticipated outcomes include innovative experimental quantum optics protocols quantum nonlocality in diverse networks, opening new paths for quantum foundations and quantum technology.

2. Achieving quantum advantage in quantum sensing with photons: Quantum technologies promise new generation of advanced measurement tools capable achieving precision beyond any existing classical measurement technology. This PhD project aims to experimentally advance our ability to perform ultra-precise measurements. By using the methods of quantum physics, this project will develop the science behind implementing an interconnected ultra-sensitive measurement network. The research will focus on overcoming the challenges of sending quantum data across distances and using it to simultaneously process measurement information in various locations.

3. Advancing Quantum Experiments to Test Reality Beyond Bell’s Theorem: This project aims to develop and perform quantum experiments that will impose strong constraints on the nature of reality, even stronger than the constraints imposed by the Bell experiments recognised by the 2022 physics Nobel Prize. Expected outcomes include probing the nature of observation itself, for increasingly sophisticated systems acting as observers, and laying the theoretical groundwork for future tests that can rule out whole classes of theories about the world and our experience of it. Some of the benefits that will likely accrue are: pushing the development of photonic technology in novel directions, with the possibility of shedding light on the quantum measurement problem. The primary focus of this role is to develop the ability to perform high-level quantum optical experiments and master quantum foundations and information concepts.

The PhD Scholarships constitute an annual stipend of AUD 34,752 (approximately EUR 19,000 or USD 22,000) for a period of up to three years of full-time study. Expressions of interest are welcome from domestic and international applicants.

Applicants must have completed, or expect to complete, a bachelors degree with honours equivalent to first class honours or a Masters degree (AQF Level 9) incorporating a significant research component of a standard comparable to a bachelor honours degree or be regarded by Griffith University as having an equivalent level of attainment in accordance with Schedule One of the Griffith HDR Scholarship Procedure.

Please contact us if you are interested in this opportunity (for contact details, follow the link to our laboratory’s website under “employer web page”). Please include the following in your correspondence

Evidence that you have completed a program with the required grades as detailed in the about you section, including a copy of your academic transcript A curriculum vitae (CV). Names of two referees Expressions of interest will be accepted until 19 September 2025 with expected commencement date in early 2026.

International applicants should ensure that English Language Proficiency requirements for the program are met before formally applying. Applicants to research programs will need to show they meet:

A minimum overall band score of 6.5 on the IELTS (Academic) with no band score less than 6.0 OR A minimum score of 575 on the paper-based TOEFL including a score of no less than 5.0 on the TWE OR A score of 79 on the internet-based (iBT) TOEFL with no sub-score less than 19