We study how entanglement gives rise to collective behavior in interacting quantum systems. Using the programmability of neutral atom arrays, we explore fundamental questions relating to quantum criticality, quantum dynamics, and the emergence of new phases of matter beyond the scope of classical physics.
Hardware development for neutral atom quantum processors
Our lab develops new techniques for trapping, controlling, and manipulating neutral atoms. We focus on improving gate fidelities, scaling up system size, and advancing architectures that enable large-scale, programmable quantum processors.
Exploring quantum computation and error correction
We use our neutral atom quantum processors as scientific tools to explore quantum circuits, including error-corrected logical operations. We aim to deepen our understanding of quantum computation and guide the development of robust, fault-tolerant quantum technologies.
