Core Insights - The Jiangmen Underground Neutrino Observatory (JUNO) has achieved significant scientific results by measuring two parameters related to neutrino oscillation, improving precision by 1.5 to 1.8 times compared to previous experiments [1] - The experiment aims to support global research on neutrinos from various sources, including the sun, supernovae, atmosphere, and Earth, thereby contributing to breakthroughs in the field [1] Group 1 - The JUNO experiment, initiated in 2008, was included in the Chinese Academy of Sciences' strategic technology projects, establishing China's leading position in neutrino research five years ahead of similar international projects [2] - The experiment represents a significant step towards understanding the mass hierarchy of neutrinos, likened to capturing elusive signals about the universe's fundamental nature [2] Group 2 - The collaboration involves over 700 researchers from 75 institutions across 17 countries, highlighting the importance of international cooperation in achieving major scientific breakthroughs [3] - The success of the JUNO experiment is part of a broader commitment by China to contribute to global scientific innovation and collaboration, as evidenced by recent developments in fusion science [3]