Biography
József graduated from Pázmány Péter Catholic University in 2015 with a BSc in Molecular Bionics Engineering. From 2015-17 he remained there for an MSc in Info-Bionics Engineering, including a year with the Erasmus programme at the Institute for Nanoscience and Nanotechnology, Technishe Universität München, Germany. Following this he worked for Streamnovation Ltd on the BrianQC Project. József joined King's as a PhD student in 2018, and has completed Cross-Disciplinary Approaches to Non-Equilibrium Systems (CANES) at King's EPSRC Centre for Doctoral Training.
Thesis title
Effects of Dissipation on Non-Equilibrium Quantum Matter
Research interests
- Investigating many-body localisation in interacting non-Hermitian quantum systems mainly via numerical methods.
- The effects of dissipation and drive on non-equilibrium quantum matter.
PhD supervisor
Principal Supervisor: Dr Joe Bhaseen
Research
Cross-Disciplinary Approaches to Non-Equilibrium Systems (CANES)
The mission of CANES is to train future research leaders in the understanding, control and design of systems far from equilibrium, based on rigorous training in theoretical modelling, simulation and data-driven analysis, and a breadth of awareness of common themes across disciplines.
Research
Cross-Disciplinary Approaches to Non-Equilibrium Systems (CANES)
The mission of CANES is to train future research leaders in the understanding, control and design of systems far from equilibrium, based on rigorous training in theoretical modelling, simulation and data-driven analysis, and a breadth of awareness of common themes across disciplines.