Our laboratory explores quantum information processing by utilizing Rubidium-87 atoms. We specialize in exciting these atoms to Rydberg states to implement high-fidelity gates, bridging the gap between fundamental physics and scalable hardware. Our research focuses on the systemic engineering of stable atomic arrays to pioneer the development of robust, integrated quantum computing systems.

Our laboratory specializes in optical diagnostics for plasma, focusing on the characterization of plasma properties and the investigation of complex internal reaction processes. We employ high-precision laser-based diagnostic techniques, such as Laser Absorption Spectroscopy (LAS) and Laser Thomson Scattering (LTS), to provide deep insights into the fundamental physics and dynamics of diverse plasma environments.