Quantum thermalisation: A new framework for nuclear collisions

This project aims to quantify and model the processes that lead to quantum thermalisation in nuclear collisions. Thermalisation is critical to the synthesis of new superheavy elements, production of medical isotopes, and creation of heavy elements in the cosmos. Yet quantum thermalisation in nuclear systems is not understood, causing models to be wrong by up to a factor of 100. This project will determine the routes to thermalisation in nuclear systems by combining the latest concepts in many body quantum physics with enhancements to Australia's world-leading precision measurement capabilities. Success will transform the field, enabling new fundamental tests of quantum mechanics and benefiting broader applications of nuclear collisions.