Recently, Chinese scientists have achieved a major breakthrough in quantum computing by successfully tackling the world-class challenge known as ‘quantum error correction.’ A research team led by Academician Pan Jianwei from the University of Science and Technology of China has, for the first time, demonstrated high-fidelity logical qubit operations in a superconducting quantum system and effectively suppressed quantum decoherence. This achievement significantly enhances the stability and reliability of quantum computers and lays a crucial foundation for building scalable, fault-tolerant universal quantum computers in the future. The findings have been published in the prestigious international journal Nature and have received high acclaim from the global scientific community. Experts note that this breakthrough marks China’s transition in frontier quantum technology from ‘catching up’ to ‘keeping pace’—and even ‘taking the lead’—with profound implications for driving the next wave of scientific revolution and industrial transformation.
近日,中国科学家在量子计算领域取得重大突破,成功攻克了被称为‘量子纠错’的世界级难题。由中国科学技术大学潘建伟院士领衔的科研团队,首次在超导量子系统中实现了高保真度的逻辑量子比特操作,并有效抑制了量子退相干效应。这一成果不仅显著提升了量子计算机的稳定性和可靠性,也为未来构建可扩展、容错的通用量子计算机奠定了关键基础。相关研究已发表于国际顶级学术期刊《自然》,获得全球同行高度评价。专家指出,该突破标志着中国在量子科技前沿已从‘跟跑’迈向‘并跑’甚至‘领跑’阶段,对推动新一轮科技革命和产业变革具有深远意义。
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