The role
This post holder will be investigating exotic many-body states in quantum materials, with emphasis on direct experimental visualization and characterization of quantum phenomena at the atomic scale. You will join our newly established low-temperature Scanning Tunnelling Microscopy (STM) laboratory in the School of Physics. The project goal is to probe and understand a variety of quantum states including unconventional superconductivity, intertwined electronic liquid crystals, novel magnetic phases, and topological phases in modern quantum matter.
You will develop expertise in Spectroscopic Imaging STM techniques. Key scientific focuses include but are not limited to emergent phenomena such as superconductivity, charge-order, nematicity, and topological states. You will design and conduct experiments to explore novel quantum states, particularly in kagome materials, intrinsic topological superconductors and other strongly correlated electronic systems.
The experiments will be conducted within Dr. Shuqiu Wang's research group in the Quantum Matter Theme at the University of Bristol. The primary work will use our ultra-low vibration laboratories in Bristol, with opportunities for collaborative experiments at partner research groups such as the University of Oxford. You will be part of a dynamic team to develop new and exciting experiments at the forefront of experimental quantum matter physics.
What will you be doing?
* Atomic-scale visualization of quantum materials. Develop state-of-the-art low-temperature STM with magnetic fields to discover new exotic quantum states.
* Measure electronic and magnetic properties of quantum materials. Perform detailed spectroscopic measurements to characterize intertwined electronic states, topological features, and quantum phase transitions. Typical measurements will be conducted at ultra-low temperatures under magnetic fields, both in Bristol and at external facilities.
* Conduct ground-breaking research. We will use the above set-ups to perform ground-breaking original research in various new quantum materials. The ultimate aims are to provide key insights about quantum mechanics at the atomic scale, and tuning the quantum states (e.g. with temperature, magnetic field).
You should apply if
* You are excited about undertaking research in the very active area of quantum matter, experimental low-temperature physics and the prospect to make some high-impact contributions to the field.
* You have a strong track record in research, with relevant experience in conducting experiments at very low temperatures, working with STM and/or magnets.
* You have a PhD in Physics or related subject, or you are close to completion of a PhD or equivalent professional qualification/experience.
* You are passionate about working in a dynamic team environment, collaborating with other postdocs and PhD students across multiple institutions.
* You are a highly motivated individual who can quickly master new experimental techniques, handle and analyse large datasets effectively, balance multiple research priorities, and drive forward independent research initiatives with great enthusiasm.
Additional information
Contract type: Open-ended with fixed funding for 36 months
Work pattern: Full time
Grade: I/Pathway 2
Salary: £38,249-£44,128 per annum
School/Unit: School of Physics
This advert will close at 23:59 UK time on 14/04/2025
Interviews are anticipated to take place late April to May 2025
For informal queries, please contact: Shuqiu Wang shuqiu.wang@bristol.ac.uk or shuqiucwang@gmail.com
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