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Professor Bowen is Director of the Australian Research Council Centre of Excellence in Quantum Biotechnology, and leads the Quantum Optics Laboratory at UQ. He is recognised both nationally and internationally for research at the interface of quantum science and nanotechnology; including bioimaging, biotechnology, nanophotonics, nanomechanics, quantum optomechanics and photonic/quantum sensing. He is a Fellow of the Australian Institute of Physics.

Professor Bowen's research spans from the very fundamental, e.g. how does quantum physics transition into our everyday world at large scales?, to applied, e.g. developing next generation sensors for medical diagnostics and navigation. To pursue this research, his lab works in close partnership with industry and uses state-of-the-art facilities for nanofabrication, nanoanalysis, precision optical measurement and deep cryogenic refrigeration available in-house or on campus at UQ.

Professor Bowen has supervised more than thirty postgraduate students, who have been recognised with prizes such as Fulbright Scholarships, an Australian Youth Science Ambassadorship, a Springer PhD theses prize, the Queensland nomination for the Australian Institute of Physics Bragg Medal, the Australian Optical Society Postgraduate Student Prize and UQ Graduate of the Year. He regularly has projects available, both for postgraduate students and for postdoctoral researchers. Please check his website, above, or contact him directly for details (w.bowen@uq.edu.au).

Pete is currently a Lecturer in Philosophy specialising in the philosophy of science, particularly the philosophy of physics. His research interests include time and causation in modern physics, especially quantum foundations, and the epistemology and methodology of science, especially analogue experimentation. He completed in 2021 an ARC Discovery Early Career Research Award project, "A philosophical exploration of simulating and controlling the quantum world", which examines how a novel laboratory technique, analogue quantum simulation, illuminates the epistemology of analogue experimentation. In 2023 he was a collaborator in the FQxI project "Information as fuel" based in the School of Mathematics and Physics. Pete's philosophical research is informed by the latest experimental and theoretical results from the physical sciences.

Organic functional materials development (design, synthesis & characterisation) for optoelectronics

Associate Professor Shih-Chun Lo (Lawrence)

Lawrence held a prestigious Swire Scholarship while carrying out his PhD study on semiconductor material development for organic solar cells and light emitting diodes (LEDs) at Oxford University, UK (1996-2000). His post-doctoral research at Oxford University focused on the design, synthesis and characterisation of fluorescent and phosphorescent dendrimers for higly efficient LEDs. Dendrimers have been recognised internationally as the third main class of LED materials, alongside small molecules and polymers, in which he played a key role. In December 2007, he joined the University of Queensland as a Lecturer in Chemistry of Materials. His research work has focused on the development of new functional semicondcutor materials for quantum based opto-electronic applications (e.g. solar cells, LEDs, photodetectors, sensors, superconductors & organic lasers) as well as clean energy generation.

Dr Neely completed his BS in Physics and Mathematics at the University of Oregon, USA. He then attended the University of Arizona's College of Optical Sciences. In Arizona, he worked on experiments investigating superfluid vortices and superfluid turbulence in Bose-Einstein Condensates (BECs), in the group of Professor Brian Anderson. On completing his PhD, he was a Postdoctoral Research Fellow at the National Institute of Standards and Technology (NIST) in Boulder, Colorado, where he investigated the application of frequency combs to mid-infrared spectroscopy in the group of Dr Scott Diddams.

At the University of Queensland, he leads an experimental group focused on ultracold gases and BECs. He is also an Associate Investigator in the ARC Centre of Excellence for Engineered Quantum Systems (EQUS).

Dr Neely’s research interests include superfluid turbulence (the focus of his Future Fellowship), atomtronics, quantum thermodynamics, and matter-wave based inertial sensing.

The Bose-Einstein condensation lab has openings for honours, PhD, and undergraduate projects. Please contact Dr Neely (t.neely@uq.edu.au) regarding current opportunities

Dr. Markus Rambach's research interests are in the field of quantum optics, especially on single photon sources to create photonic qubits and qudits.

Markus was born and raised in a small alpine town in Austria, before doing his BSc and MSc at the University of Innsbruck (Austria). He did his undergrad in Physics, before completing an MSc in experimental quantum physics in the prestigious group of Pro. Rainer Blatt. Here, is where he met a young renegade Brit who had just completed his PhD in the research group of Prof. Andrew White at the University of Queensland. Inspired by the stories, Markus decided to have a look for himself and moved to Brisbane, where he completed his PhD with Andrew in 2017. After a short intermezzo for a Postdoc in Scotland, he moved back to Brisbane 2019 and has been a research fellow at UQ ever since. Markus' research interests are in the weird but beautiful world of quantum physics, where he is investigating ways to make the upcoming quantum internet a reality. Over the years he has worked with verious single photon platforms and used them for quantum information experiments. Recently he changed gear and is now investigating the infinitely-sized space of higher-dimensional quantum systems, so-called qudits.

Markus enjoys community engagement, be it as chair of the SMP Early and Mid-Career Academics Committee or as a member of the EQUS Public Engagement Committee. He particular likes the sparks in people's eyes when they start to understand a concept or idea.

Dr Jacqui Romero is an expert in experimental quantum information. Her research is focused on using higher-dimensional systems for exploring curious quantum physics phenomena and developing future quantum technologies. She is the group leader of the research team Qudits@UQ, there's more information on her group's webpage.

Jacqui was born and bred in Manila, Philippines. Hearing her high school physics teacher complain about quantum physics, she became curious and googled "quantum physics"—she has been hooked ever since. She holds BS Applied Physics magna cum laude and MS Physics degrees from the University of the Philippines. She finished her PhD at the University of Glasgow (in sunny Scotland!) where she was a researcher for seven years. In 2015, she moved to Brisbane to join the Quantum Technology group at the University of Queensland. In 2016 she took up an ARC DECRA fellowship with the same group. In 2019, she took up a Westpac Research Fellowship and formed her own team, Qudits@UQ. Jacqui is recognised for moving the shape of photons to mainstream quantum information. She has received several prestigious national and international awards which include: a L'Oreal-UNESCO For Women In Science award in 2017 (one of four in Australia), the Ruby Payne-Scott Medal of the Australian Institute of Physics for excellence in early-career research in 2018, and a L'Oreal-UNESCO For Women In Science International Rising Talent Award in 2019 (one of fifteen awards globally).

She is currently an associate professor and Westpac Research Fellow. She is also a chief investigator at the Centre of Excellence For Engineered Quantum Systems (EQUS).

Outside work, she is a busy mum to three lovely boys, and an occasional painter. She also loves sharing her research to the wider community, example here.

Dr Shrapnel is an Associate Professor in Physics and Deputy Director at the ARC Centre of Excellence for Engineered Quantum Systems, where she works on topics in Quantum Machine Learning and Quantum Foundations. She is also a registered medical practitioner with over 20 years experience and currently leads the Quantum Technologies for Health Program for the Queensland Digital Health Centre. Her research combines theory, methodology, and applications across a broad range of disciplines.

Dr Gabriele Tartaglino-Mazzucchelli's research interests include topics in theoretical physics of fundamental interactions and mathematical physics like supersymmetry, supergravity and superspaces in various space-time dimensions, quantum field theory, extended supersymmetry, covariant formulations of superstrings, complex geometry, quantum gravity, holography, (A)dS/CFT and integrability.

Since October 2019 Dr Tartaglino-Mazzucchelli has joined the School of Mathematics & Physics at the University of Queensland (UQ) as Senior Lecturer (Level C), Australian Research Council (ARC) Future Fellow. Currently, he is an Amplify Fellow at UQ.

Dr Tartaglino-Mazzucchelli's obtained his PhD at the University of Milano Bicocca in November 2006. After that, and before joining UQ, he has held several academic appointments and fellowships in Australia (UQ and The University of Western Australia), Belgium (KULeuven U.), Sweden (Uppsala U.), Switzerland (Bern U.), and the USA (Maryland U.).

So far in his career, Dr Tartaglino-Mazzucchelli's successfully attracted competitive research grants and awards for approximately 2.5 million Australian dollars, including, among other grants, a Marie Curie fellowship, an ARC DECRA award, and an ARC Future Fellowship – some of the most prestigious fellowships available to early and middle career researchers in Europe and Australia – and two ARC Discovery Projects, one recently awarded as first Chief Investigator.

Professor Andrew White's research interests are in the field of quantum information, quantum optics, and all aspects of quantum weirdness. More details are included on the Quantum Laboratory website.

Andrew was raised in a Queensland dairy town, before heading south to the big smoke of Brisbane to study chemistry, maths, physics and, during the World Expo, the effects of alcohol on uni students from around the world. Deciding he wanted to know what the cold felt like, he first moved to Canberra, then Germany—completing his PhD in quantum physics—before moving on to Los Alamos National Labs in New Mexico where he quickly discovered that there is more than enough snow to hide a cactus, but not nearly enough to prevent amusing your friends when you sit down. Over the years he has conducted research on various topics including shrimp eyes, nuclear physics, optical vortices, and quantum computers. He likes quantum weirdness for its own sake, but his current research aims to explore and exploit the full range of quantum behaviours—notably entanglement—with an eye to engineering new technologies and scientific applications. He is currently Director of the Centre of Engineered Quantum Systems, an Australia-wide, 14-year long, research effort by 180 scientists to build quantum machines that harness the quantum world for practical applications.