【中新社合肥7月11日电】中国科学技术大学在量子科技领域的研究取得重大突破,由潘建伟、陈宇翱、姚星灿、邓友金等科学家团队成功构建了“天元”量子模拟器,这一成就标志着中国在量子计算领域已迈入世界领先行列,实现了从经典计算向量子计算跨越的里程碑式进展。
“天元”量子模拟器的成功构建,是基于量子计算第二阶段的关键突破。它超越了经典计算机的处理能力,能够解决经典计算机难以解决的复杂计算问题,特别是在模拟量子系统、优化大规模计算任务以及解决密码学难题等方面展现出巨大潜力。
中国科大科研团队采用创新性的量子比特技术,优化了量子门操作的精度和稳定性,大幅提高了量子计算系统的性能。这一成就不仅体现了中国在量子科技领域的自主研发实力,也展示了中国在探索未来计算技术方面的前瞻性和创新性。
“天元”量子模拟器的诞生,对于推动量子信息科学的发展具有重要意义。它将为解决量子物理、化学、材料科学等领域的复杂问题提供新的工具,加速科研创新和工业应用的进程。此外,这一成果也预示着中国在量子科技领域的国际竞争中占据了一席之地,有望在未来引领全球量子科技的发展趋势。
未来,随着“天元”量子模拟器的进一步优化和应用拓展,中国在量子计算领域的研究有望取得更多突破性成果,为人类探索未知世界、解决复杂问题提供强大的计算支持,为量子科技的广泛应用铺平道路。
英语如下:
Headline: “Chinese CAS Milestone: Quantum Simulator Outpaces Classical Computers”
Keywords: quantum simulator, landmark, progress
News Content: [Hefei, July 11, Xinhua News Agency] In a significant breakthrough in quantum technology, the research team led by scientists Pan Jianwei, Chen Yuaohao, Yao Xingcan, and Deng Youjin at the University of Science and Technology of China (USTC) successfully constructed the “Tianyuan” quantum simulator. This achievement signifies that China has entered the world’s leading echelon in the field of quantum computing, marking a landmark progress in transitioning from classical to quantum computing.
The successful construction of the “Tianyuan” quantum simulator represents a critical breakthrough in the second phase of quantum computing. It surpasses the processing capabilities of classical computers, enabling the solution of complex computational problems that are beyond the reach of classical computers. This is particularly evident in simulating quantum systems, optimizing large-scale computational tasks, and tackling challenges in cryptography.
USTC’s research team employed innovative quantum bit technologies to enhance the accuracy and stability of quantum gate operations, significantly improving the performance of quantum computing systems. This achievement not only showcases China’s自主研发 capabilities in quantum technology but also highlights its pioneering and innovative approach to exploring future computing technologies.
The birth of the “Tianyuan” quantum simulator is of great significance for advancing the field of quantum information science. It will provide new tools for addressing complex issues in quantum physics, chemistry, materials science, and other fields, accelerating the pace of scientific innovation and industrial applications. Moreover, this achievement signals China’s position in the global competition in quantum technology, with the potential to lead the world’s quantum technology development in the future.
In the future, as the “Tianyuan” quantum simulator is further optimized and its applications expanded, China’s research in quantum computing is expected to yield more groundbreaking results. This will provide powerful computational support for humanity’s exploration of the unknown world and the resolution of complex problems, paving the way for the widespread application of quantum technology.
【来源】http://www.chinanews.com/gn/2024/07-11/10249286.shtml
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