This CRF project aims at searching for new quantum matter and further understand the underlying physics in engineered atomic systems. We will quantum-simulate fundamental Hamiltonians with non-trivial topology, interactions, and dissipations, and then develop a set of advanced tools and methods for emulating new phases of quantum matter comprising ultracold atoms, molecules, and photons. To create, characterize, and understand the physical principles behind new quantum matter, various state-of-the-art platforms will be used in tabletop experiments in close collaboration with theoretical groups. The investigated systems include spin-orbit-coupled cold atoms, a highly nonlinear atomic medium, and ultracold polar molecules.

The successful implementation of such quantum systems will demonstrate how quantum-enabled devices can produce short- term benefits. The proposed research goals are highly interdisciplinary and require a collaborative approach, which will further deepen the collaboration among quantum scientists in Hong Kong, contribute to a valuable workforce in quantum science and strengthen the research capacity of Hong Kong.

Please click here to read the relevant news, “HKUST researchers find new way of gaining quantum control from loss” in EurekAlert!.

An atomic quantum simulator (left) emulates the topological property of nodal semimetal in an engineered atomic system (right).

Selected Publications: