FLEET News
A new RMIT-led study stacks two different types of 2D materials together to create a hybrid material providing enhanced properties. This hybrid material possesses valuable properties towards use in future memory and electronic devices such as TVs, computers and phones. Most significantly, the electronic properties of the new stacked structure can be controlled without the need for external strain, opening …
Ex FLEET/Swinburne PhD student Now senior postdoctoral scientist at Heidelberg University (Germany) Hello FLEETers! I am Pavel. I completed my Ph.D. at FLEET, working with Prof. Jeffrey Davis at Swinburne University of Technology (Centre for Quantum and Optical Science). Actually, if your own work at FLEET includes optical characterisation of 2D semiconductors, you might even be using something I built! …
A number of FLEET members and affiliates are attending APS March Meeting this week, online or in person. Here’s a list of talks to check out (if you have registered for the conference, catch-up links are provided on each page). Monday 14/3 Yonatan Ashlea AlavaIn situ epitaxial aluminium gates in ultra-shallow GaAs/AlxGa1-xAs heterostructures for low noise quantum point contacts Feixiang …
Post-grad job hunting, perfecting the resume, and how to handle pre-interview nerves An expert panel ran through issues of importance to PhD and Masters graduates at UNSW this month, answering the questions at top of mind for ECRs towards the end of study, as they prepare to start looking for graduate positions for the first time. The event was organised …
A collaborative study led by the University of Wollongong confirms switching mechanism for a new, proposed generation of ultra-low energy ‘topological electronics’. Based on novel quantum topological materials, such devices would ‘switch’ a topological insulator from non-conducting (conventional electrical insulator) to a conducting (topological insulator) state, whereby electrical current could flow along its edge states without wasted dissipation of energy. …
Congratulations to FLEET’s Jesper Levinsen, whose exceptional work as referee of peer-reviewed papers has been recognised by the Outstanding Referee Awards, one of only three in Australia in 2022, by the American Physical Society (APS). The APS recognises around 150 outstanding referees each year who have demonstrated exceptional work in the assessment of manuscripts submitted to the Physical Review journals. …
Ex FLEET/Swinburne Research Fellow, now financial crime management at ANZ Bank Applying skills learned in physics to combatting financial crime Hi FLEET, I’m Shilpa Sanwlani. At FLEET, I was Research Fellow with Prof. Jeff Davis in Swinburne University of Technology for 1.5 years (2017-2018), using coherent multi-dimensional spectroscopy (CMDS) to investigate novel Floquet states of 2D electron gas systems and …
Two-quantum multidimensional coherent spectroscopy (2Q-MDCS) quantifies precise biexciton binding energy Applications in future devices based on biexcitons in TMDCs A rare spectroscopy technique performed at Swinburne University of Technology directly quantifies the energy required to bind two excitons together, providing for the first time a direct measurement of the biexciton binding energy in WS2. As well as improving our fundamental …
A group of Sydney Quantum undergraduates have recently finished a summer term with Alex Hamilton’s QED group at UNSW, gaining practical experience with quantum devices as they worked alongside FLEET and QED researchers. Over the course of their six-week placement, students pursued individual projects, developing skills in device fabrication and experimental process. The UNSW Physics Quantum Electronic Devices group investigates …
First published at EQUS: the ARC Centre of Excellence for Engineered Quantum Systems Eddies in an exotic liquid known as a superfluid merge to form large vortices, analogous to how cyclones form in the turbulent atmosphere. The new research, by a team from The University of Queensland, EQUS and FLEET will be important for emerging technological applications of superfluidity, such …
“The long divided, must unite; long united, must divide. Thus it has ever been.” The opening lines of the great Chinese historical novel Romance of the Three Kingdoms condense its complex and spectacular stories into a coherent pattern, that is, power blocs divide and unite cyclically in turbulent battle years. A good philosophy or theorem has general implications. Now, published …