Core Insights - The "AIMS" (Advanced Infrared Measurement System) has been officially launched, marking it as the world's first dedicated mid-infrared solar magnetic field observation system [1] - AIMS aims to enhance the understanding of solar phenomena and improve space weather forecasting through precise measurement of solar magnetic fields [1] Group 1: Technological Breakthroughs - AIMS has achieved significant technological advancements since its development began in 2015, including a breakthrough in direct measurement methods for solar magnetic fields [1] - The measurement precision of solar magnetic fields has been improved to better than 10 Gauss, addressing a century-old bottleneck in solar magnetic field measurement [1] Group 2: Research Implications - AIMS has already accumulated valuable scientific observation data, which is expected to contribute to important advancements in areas such as solar three-dimensional atmospheric dynamics and flare physics [1]

Core Insights - The "AIMS" (Advanced Infrared Measurement System) has been officially launched, marking it as the world's first dedicated mid-infrared solar magnetic field observation device [1] - AIMS aims to enhance the understanding of solar phenomena and improve space weather forecasting through precise measurement of solar magnetic fields [1] Group 1: Technological Breakthroughs - AIMS has achieved significant technological advancements since its development began in 2015, including breakthroughs in direct measurement methods for solar magnetic fields [1] - The measurement precision of solar magnetic fields has been improved to better than 10 Gauss, addressing a century-old bottleneck in solar magnetic field measurement [1] Group 2: Research Implications - AIMS has already accumulated valuable scientific observation data, which is expected to contribute to important advancements in areas such as three-dimensional solar atmospheric dynamics and flare physics [1]

Core Points - The "AIMS" (Mid-Infrared Observation System for Accurate Measurement of Solar Magnetic Fields) has been officially launched, marking it as the world's first dedicated mid-infrared solar magnetic field observation device [1] - AIMS is expected to significantly advance the understanding of solar physics and provide critical data for space weather forecasting [1] Group 1 - AIMS successfully passed national acceptance and is now operational, representing a major technological breakthrough in solar observation [1] - The system operates at an altitude of 4000 meters and has achieved a measurement precision of better than 10 Gauss, addressing a century-old challenge in solar magnetic field measurement [1] - AIMS has already accumulated valuable scientific observation data, which is anticipated to contribute to research in solar three-dimensional atmospheric dynamics and flare physics [1]

Core Points - The "AIMS" (Advanced Infrared Measurement System) has successfully passed national acceptance and is officially operational, marking it as the world's first dedicated mid-infrared solar magnetic field observation device [1][3] - AIMS is China's first astronomical telescope operating in the mid-infrared range, aimed at enhancing the understanding of solar phenomena in this wavelength [1][3] - Accurate measurement of solar magnetic fields is crucial for understanding solar and stellar physics, as well as for space weather forecasting [1] Technical Achievements - AIMS was constructed at an altitude of 4,000 meters at the Qinhai Cold Lake site and has achieved several key technological breakthroughs since its development began in 2015 [3] - The system utilizes 12.3-micron mid-infrared observations to directly measure solar magnetic fields, improving measurement precision to better than 10 Gauss, addressing a century-old bottleneck in solar magnetic field measurement [3] - AIMS has already accumulated valuable scientific observation data, which is expected to contribute significantly to research in solar three-dimensional atmospheric dynamics and flare physics [3]