三大“国之重器”齐聚，中国强磁场大科学装置形成协同新格局

Core Insights - The article discusses the potential of high-temperature superconducting technology in addressing energy transmission losses and optimizing power distribution, emphasizing the role of strong magnetic field scientific facilities in this context [1][2] Group 1: Energy Security and Superconducting Technology - Strong magnetic fields are highlighted as having unique value in strategic research related to national energy security, with high-field superconducting technology being a core foundation for future compact fusion energy devices [1] - Research findings on high-temperature superconductors under strong magnetic fields provide critical scientific evidence for the design of new superconducting materials aimed at achieving efficient low-loss energy applications [1] Group 2: Life Sciences and Magnetic Field Applications - Strong magnetic field technology is opening new frontiers in life sciences, particularly through "strong field biological magnetic resonance," which offers unprecedented resolution for exploring biomolecular structures and dynamics [2] - The application of strong magnetic fields in unconventional superconductivity research is being explored, contributing to breakthroughs in materials essential for quantum technology development [2] Group 3: Collaborative Research Framework - China's strong magnetic field initiatives are forming a distinctive and complementary framework based on three major facilities: pulsed, steady-state, and comprehensive extreme condition setups [2] - There is a call for enhanced collaboration among strong magnetic field facilities and other major scientific installations, such as light sources and neutron sources, to build a world-class research system for extreme conditions [2] - The importance of attracting and nurturing young leading talents to produce original results and solve critical core technology challenges is emphasized, contributing to high-quality development [2]