paper published in Nature on September 15th showed an experimental architecture for continuous operation of high-speed reloading and large-scale atomic array systems by a research team from Harvard University and MIT, while achieving coherent storage and manipulation of quantum information. Researchers achieved the generation of over 30,000 initialized quantum bits per second using a light capture reloading rate of 300,000 atoms per second, assembling and maintaining an array containing over 3,000 atoms, with a continuous operation time of over two hours. Scientists involved in this research stated that this achievement lays the foundation for developing fault-tolerant quantum computers for large-scale continuous operation.