Welcome to the Rubidium-87 Atomic Quantum Computing Laboratory

Our laboratory has been under preparation since late 2025, focusing on the core challenges and scalable pathways of neutral-atom quantum computing. Using rubidium-87 (⁸⁷Rb) atoms as our qubit carriers, we aim to build an atomic array quantum computing platform at the ten‑thousand‑qubit scale, achieving universal quantum operations through the combination of continuous refilling and Rydberg‑state manipulation.

At present, we have completed the construction of the ultra‑high vacuum system and the pre‑cooling optical setup, along with the joint testing of dynamic and static optical tweezers. We are now integrating the full system. Using a hybrid approach combining optical tweezer arrays and optical lattices, we plan to realize the first thousand‑qubit static atomic array by the first half of 2026, and demonstrate continuous lattice loading as well as single‑site addressing.

We believe that neutral atoms naturally offer identical qubits and excellent scalability. The combination of continuous refilling at the ten‑thousand‑qubit scale and parallel Rydberg manipulation will overcome the scaling bottlenecks faced by superconducting and trapped‑ion platforms. We sincerely invite collaboration with colleagues interested in neutral‑atom quantum computing, Rydberg physics, advanced laser and imaging systems, and AI‑assisted quantum control. Whether in theoretical support, experimental collaboration, or industrial translation, we look forward to exploring new frontiers in large‑scale quantum computing together.