PolyU contributes to Nation’s Chang’e-6 historic lunar far-side sampling mission and acquires Chang’e-5 lunar soil samples; Leading deep space exploration research
3 Jul 2024
The Hong Kong Polytechnic University (PolyU) research team, after developing and manufacturing the “Surface Sampling and Packing System”, has assisted the Nation in completing the world’s first lunar far-side sampling for the Chang’e-6 lunar exploration mission. PolyU also recently obtained approval for the lending of lunar soil samples collected by the Chang’e-5 mission from the Lunar Sample Management Office under the China National Space Administration’s Lunar Exploration and Space Engineering Centre.
The PolyU research team has obtained two distinct lunar soil samples: a surface soil sample weighing 400 milligrams, which was collected by PolyU’s Surface Sampling and Packing System; and a subsurface soil sample totalling 42.6 milligrams. The samples are currently stored in the lunar regolith storage and analysis system on the PolyU campus which is a unique state-of-the-art integrated multifunctional system for in-situ analysis, enabling researchers to conduct a comprehensive study on the lunar regolith without the need for leaving the storage environment.
Dr LAM Tai-fai, Council Chairman of PolyU, congratulated the team for marking a magnificent chapter in the Nation’s aerospace history and said, “This year, PolyU is celebrating its 30th anniversary as a University. In the recently announced Quacquarelli Symonds World University Rankings for 2025, PolyU has reached new heights and ranked 57th globally. In addition to achieving this significant milestone, PolyU has successfully obtained approval from the Nation and acquired lunar soil samples collected by the Chang’e-5 mission. The PolyU team will treasure this incredibly precious gift.”
Prof. Jin-Guang TENG, President of PolyU, said, “PolyU is committed to becoming an innovative, world-class university, highlighting the pivotal role of scientific research in driving innovation and positively impacting society. We focus on nurturing young scientific research talents and passing on research experience from one generation to the next. We will continue to collaborate with interdisciplinary experts and contribute to the Nation’s development towards becoming a major player in deep space exploration and scientific innovation.”
The Chang’e-5 lunar sample in-depth analysis and research programme is spearheaded by a PolyU team with extensive experience in deep space explorations, led by Prof. YUNG Kai-leung, Sir Sze-yuen Chung Professor in Precision Engineering, Chair Professor of Precision Engineering and Associate Head of the Department of Industrial and Systems Engineering, and Director of the Research Centre for Deep Space Explorations (RCDSE), and Prof. WU Bo, Fiona Cheung Professor in Spatial Science, Associate Head of the Department of Land Surveying and Geo-Informatics and Associate Director of RCDSE. The research team, which also includes Dr Wang Xing, Postdoctoral Fellow of the Department of Land Surveying and Geo-Informatics, and Dr Sergey Krasilnikov, Research Assistant Professor of the same department, will delve into “Finding Water in Lunar Soil” through a microstructural analysis of lunar regolith, including its water content and formation process. Their findings will shed insights into the formation of soil on the Moon’s surface and other celestial bodies, as well as lunar water resources induced by solar wind implantation.
Prof. Wu Bo said, “We are glad that our team has successfully applied for and received lunar soil samples from the National Astronomical Observatories in Beijing and brought them back to the PolyU campus for further analysis. The samples will provide valuable scientific insights. Our interdisciplinary team has extensive experience in space missions and our research embraces areas that encompass lunar geological research, topographic and geomorphological analysis of landing sites, development and manufacturing of space payloads, in-depth analysis of lunar soil samples, and space resource utilisation. We look forward to leveraging our research strengths to make further valuable contributions to innovation and technology development in Hong Kong and the Nation.”
Prof. Yung Kai-leung noted, “The fact that our team designed and manufactured the Surface Sampling and Packing System for the 2020 Chang’e-5 probe, and brought back the youngest lunar samples yet discovered to Earth, which are now being stored on our campus, holds special meaning for our team. We also plan to apply for lunar samples from the Moon’s far side brought back to Earth by Chang’e-6 in order to make further contributions to humanity’s understanding of the Moon and outer space. With the return of the Mars samples and China’s manned lunar landing ranking high among its scientific priorities through 2030, we look forward to continuing to contribute to the Nation in the years ahead.”
The lunar soil samples are rare and scientifically valuable, holding immense potential for pioneering scientific discoveries and future utilisation of lunar resources. A single grain of lunar soil may hold the key to unlocking the mysteries of the Moon’s formation, evolution, and dynamic environment. The achievements from lunar sample research can also bring long-term benefits to Earth and benefit humanity.
As space exploration evolves, with space resource utilisation now emerging as a priority for future programmes, the Space Resources Laboratory at PolyU’s RCDSE has developed resilient capabilities to store and analyse extraterrestrial samples in high-purity nitrogen protection devices for long-term interdisciplinary research. With a vision for the future, the Laboratory is well poised to handle samples from Mars and asteroids, laying the groundwork for the Nation’s further aerospace development.
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