Core Insights - The Circular Electron-Positron Collider (CEPC) has made significant progress with the recent release of the "Baseline Detector Technical Design Report," marking a milestone in its development as a "Higgs factory" [1][4] - The CEPC project originated from the discovery of the Higgs boson in 2012, which is crucial for understanding the origin of mass [3] - The CEPC is designed to be a multifunctional "particle factory," capable of not only efficiently producing Higgs bosons but also exploring other key particles, with future upgrade potential to a more powerful proton-proton collider [4] Technical Design Progress - The CEPC team completed the "Conceptual Design Report" in 2018, outlining scientific goals and the basic framework of the facility, and has now moved into a more detailed technical design phase [4] - The latest detector design report indicates that core components and key technologies have been validated, showcasing innovative detector solutions such as new energy measurement devices and advanced tracking detectors [4][5] - An international review committee, including experts from Oxford University, evaluated the CEPC detector design and confirmed its advanced, innovative, and superior performance, allowing the project to proceed to the next phase [5] Competitive Landscape - Currently, there are four main proposals for next-generation Higgs factories from China, Europe, and Japan, highlighting a competitive international landscape in fundamental science [5] - The CEPC team has demonstrated strong capabilities and a leading position in the race for next-generation high-energy colliders by completing the technical designs for both the accelerator and detector systems ahead of competitors [5]

南都讯 记者吕虹 发自北京 "任何时候，中国都必须发展自己的高科技，在世界高科技领域占有一席之 地。"1988年10月24日，邓小平同志来到中国科学院高能物理研究所视察北京正负电子对撞机时说。如 今，这"一席之地"已稳稳占住。 17日，南都记者从中科院高能所获悉，该所环形正负电子对撞机（CEPC）研究团队正式发布《基准探 测器技术设计报告》，标志着CEPC项目两大核心部分——加速器与探测器的技术设计已全部完成，为 这座由中国主导的"希格斯粒子工厂"从蓝图走向现实奠定了决定性基础。 据悉，这也是国际上首个针对环形正负电子对撞机希格斯工厂的探测器技术设计报告，彰显了中国在下 一代高能对撞机竞赛中的强劲实力和领先地位。 CEPC项目起源于2012年希格斯玻色子的发现。该粒子因其在解释物质质量起源等基本物理问题中的核 心作用，被誉为"上帝粒子"。为了对其进行精确研究，中国高能物理学家于同年9月正式提出了建设 CEPC的设想。CEPC被设计为一个多功能的"粒子工厂"，不仅能作为高效的"希格斯工厂"，还能精确探 索其他关键粒子，其隧道还为未来升级为更强大的超级质子-质子对撞机预留了升级空间。 与2018年的概念设计相比， ...