Group 1 - The core viewpoint of the articles highlights the continuous development and success of Huairou Science City, which has become a hub for major scientific infrastructure and research collaboration [1][2][3] - Huairou Science City has accumulated 51 core technologies and produced 329 significant scientific achievements, indicating its active role in innovation and technology transfer [2] - The construction of large scientific facilities in Huairou is fostering collaborative effects among various research institutions, enhancing the quality of scientific output [2] Group 2 - The high-energy synchrotron radiation source, a key facility in Huairou, is expected to complete its process acceptance and trial operation phase by the end of this year, with plans for up to 90 beamlines to support domestic and international research teams [1] - The area has seen a significant influx of scientific talent, with 25,000 researchers currently residing in Huairou, 80% of whom hold master's degrees or higher, including international researchers [3] - Future plans aim to attract an additional 100,000 scientific and industrial talents over the next 3 to 5 years, with ongoing improvements in transportation, healthcare, and education services [3]

Group 1 - The core viewpoint of the news is the establishment of Huairou Science City as a world-class original innovation hub, featuring 37 major scientific infrastructure projects and platforms for interdisciplinary research, with significant global sharing capabilities [1][2] - Huairou Science City covers an area of 100.9 square kilometers, with 68.2 square kilometers in Huairou and 32.7 square kilometers in Miyun, aiming to match national strategic needs and enhance global scientific competition and cooperation [2] - The city has successfully opened 16 scientific facility platforms, providing over 1.23 million hours of service to more than 600 domestic and international users [2] Group 2 - The High Energy Photon Source (HEPS) is highlighted as a significant scientific facility, capable of emitting light 10 trillion times brighter than the sun, and is designed to serve various fields including aerospace, energy, and life sciences [4] - HEPS has successfully emitted its "first light," demonstrating superior penetration and resolution compared to conventional light sources, which enhances its capability to detect micro-cracks in materials [5][6] - The multi-modal cross-scale biomedical imaging facility has been recognized as a major technological infrastructure, providing a comprehensive research platform that spans multiple scales and modalities in biomedical imaging [7][8] Group 3 - The facility has produced notable early research outcomes, including advancements in non-invasive brain imaging technologies that significantly improve signal strength and reduce costs, making them more accessible for hospitals [8] - Innovations such as the ultra-high-resolution full-body PET-CT and miniaturized two-photon and three-photon microscopes are being developed to enhance early disease diagnosis and observe neural activities in small animals [8][9]