Researchers have recently demonstrated a proof-of-concept for error-detected quantum computing operations based on photon–spin interactions, published in Science. The experiment relied on a fiber-based Fabry–Pérot microcavity to realize a highly efficient and stable light–matter interface — a crucial step toward scalable quantum networks.
The cavity was built using Qlibri’s precision-fabricated fiber micro mirrors, which combine exceptional surface quality, controlled curvature, and reproducible performance.
The work demonstrates how Qlibri’s commercial micro mirror technology enables cutting-edge quantum experiments that previously required custom-built, lab-specific fiber mirrors. By providing reproducible, high-quality cavity components, Qlibri supports research groups worldwide in advancing toward scalable, fault-tolerant quantum information processing.
