Group 1 - The successful launch of the "Nankei No. 1" satellite marks a significant achievement for Southern University of Science and Technology (SUSTech), being the first satellite developed by a Shenzhen university for space science research [1][4] - The satellite carries independently developed scientific payloads, including a space electric field measurement system and an aurora camera, which are expected to enhance research on space weather and provide critical data for monitoring Earth's magnetosphere and ionosphere [4][5] - The project involved over 20 undergraduate and graduate students, providing them with hands-on experience in satellite design, development, and testing, thereby enriching their educational experience and fostering interest in space science [1][3][5] Group 2 - Shenzhen universities are increasingly integrating research and education, exemplified by initiatives such as SUSTech's satellite project and Shenzhen University’s practical learning experiences in major engineering projects [2][6] - The innovative educational models in Shenzhen, such as the "one student, one chip" initiative at Shenzhen University of Technology, emphasize practical skills and direct involvement in research from early academic stages [7][9] - The rapid development of higher education in Shenzhen, with the establishment of multiple new universities and a significant number of top scientists, reflects the city's commitment to fostering a robust educational and research environment [7][8]

Core Viewpoint - The successful launch of the "Nankai No. 1" satellite by Southern University of Science and Technology (SUSTech) marks a significant achievement in the university's space research efforts, showcasing the dedication and innovation of its students and faculty [1][20]. Group 1: Project Overview - The "Nankai No. 1" satellite was launched on May 17, 2023, using the Zhuque-2 modified rocket, representing a culmination of years of effort by over 20 SUSTech students and faculty [1][20]. - The satellite project began with a proposal from the Earth and Space Science Department in 2018, with the project officially starting in 2019 [5][12]. Group 2: Student Involvement - Many undergraduate and graduate students participated in the satellite project, integrating their research into their academic work, with some using their experiences as thesis topics [4][6]. - Students expressed excitement and pride in contributing to the satellite's development, highlighting the unique opportunity to engage in real-world space research [6][12]. Group 3: Technical Achievements - The project achieved a record for the longest electric field antenna on a micro-satellite, measuring 12 meters, which enhances observational precision [10][11]. - The team faced numerous challenges, including signal interference and the need for innovative design solutions, which they overcame through extensive testing and collaboration [11][12]. Group 4: Educational Impact - The project provided students with hands-on experience in both scientific research and engineering, fostering a deeper understanding of the complexities involved in space missions [12][13]. - Faculty emphasized the importance of this project in cultivating a sense of national pride and responsibility among students, aligning with China's broader goals in space exploration [18][20]. Group 5: Future Aspirations - The successful launch is seen as a new starting point for SUSTech, with hopes that the data returned from the satellite will contribute to advancements in China's aerospace technology [20]. - The project aims to inspire future generations of students to engage in scientific research and contribute to national technological development [20].

Core Insights - The successful launch of the "Nankai No. 1" satellite marks a significant achievement for Southern University of Science and Technology (SUSTech) in the field of space exploration, showcasing the collaboration between commercial aerospace and academic research [1][4][5] Group 1: Satellite Features and Innovations - "Nankai No. 1" is equipped with a 12-meter long space electric field antenna system, setting a new global record for small satellite electric field antenna length [1][7] - The satellite utilizes a dual-layer tape structure and 3D printing technology to address the challenges of folding and storing the long antenna, achieving a total mass of 1.7 kilograms and a volume of only 1.6U (approximately 10×10×16 cm) [7] - It is the first domestic attempt to use a small satellite platform for optical observation of auroras, capable of continuous observation for 9 minutes during a single pass over the auroral zone [7] Group 2: Research and Development Contributions - The satellite's electric field measurement payload provides critical data for monitoring the Earth's magnetosphere and ionosphere, while the aurora camera captures extensive aurora data [4][5] - The project aligns with national deep space exploration strategies and will support major projects like the BeiDou satellite and space station by providing environmental monitoring [5][9] - The satellite will conduct approximately 14 passes over Shenzhen each month, contributing to urban geographic information systems [7] Group 3: Educational Impact and Student Involvement - The project emphasizes the integration of research and education, with over 20 undergraduate and graduate students participating in various stages of the satellite's development [9] - Students gained hands-on experience in satellite design, payload development, and data analysis, enhancing their skills and interest in space science [9] - The successful operation of "Nankai No. 1" not only validates innovative space exploration technologies but also builds a foundation for future large-scale space science experiments [9]