This research develops a quantum transducer, a device that connects quantum computers to fiber optic networks. By converting quantum electrical signals into optical signals at cryogenic temperatures, the technology could enable scalable quantum networking and distributed quantum computing, providing a critical foundation for future large-scale quantum systems and quantum internet infrastructure.

This research scales neutral-atom quantum computing using optical tweezer arrays containing over 6,100 cesium atoms trapped across 12,000 tweezers. The work demonstrates record coherence times, high-fidelity atom detection, and controllable atom movement, advancing the development of large-scale quantum computers capable of quantum simulation, computation, sensing, and networking.