A research team led by Associate Professor J. F. Chen have achieved an important advance in single-photon manipulation: the team has experimentally realized spatiotemporal (2+1)D Airy bullets at the single-photon level for the first time. T

On February 29, the National Natural Science Foundation of China (NSFC) released China’s top 10 scientific advances in 2023 during a ceremony in Beijing. Among the selections on the list of the country’s top 10 science advances was the breakthrough research “Bosonic-encoded quantum error correction

Their research work, entitled “Polariton Localization and Dispersion Properties of Disordered Quantum Emitters in Multimode Microcavities”, has been published in Physical Review Letters, one of the most prestigious journals in physics.

Conventional QEC schemes use multiple physical qubits to encode a logical qubit, which not only requires a tremendous amount of hardware resources, but also adds the number of error channels with increasing the number of physical qubits, resulting in an awkward situation of "the more correct, the mo

Recently, researchers resolved this bottleneck and realized ultralow-loss interconnects with quality factors as high as 8.1 x 105, a tenfold improvement over previous experiments, comparable to the native coherence of transmon qubits.

On December 20, 2022, the American Physical Society’s (APS) Physics website reviewed the year’s major advances in international physics. They released ten of the most representative important works of 2022 as the “Highlights of the Year”.Researcher Zhengda Li’s research group from the Shenzhen Inter