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首页|期刊导航|深空探测学报(中英文)|太阳系天体熔岩管探测研究现状

太阳系天体熔岩管探测研究现状OA北大核心CSTPCD

Research Status of Lava Tube Exploration in the Solar System

中文摘要英文摘要

由火山熔岩流动和冷却过程形成的熔岩管已经在太阳系多个天体表面被发现,成为了认识类地行星火山活动和热历史的窗口.同时,由于熔岩管内部具有恒温和防辐射的特点,也是未来人类探测活动或地外生存的天然庇护所,因此具有极为重要的科学和工程应用价值.总结了熔岩管的形成机制、探测和识别方法,月球和火星等太阳系不同天体表面熔岩管的分布,探讨了熔岩管探测的科学意义和应用前景,提出地球熔岩管是开展行星熔岩管类比研究和探测的重要对象,并进而介绍了熔岩管类比研究的理论和方法,为未来地外熔岩管的探测提供理论依据和模拟实验支撑.

Lava tubes,formed by the flow and cooling processes of volcanic lava,have been discovered on the surface of several heavenly bodies in the solar system and have become a window into the volcanic activity and thermal history of Earth-like planets.At the same time,lava tubes have extremely important scientific and engineering applications because of their thermostatic and radiation-proof interiors,which are also natural shelters for future human exploration activities or extraterrestrial survival.In this paper,the formation mechanism,detection and identification methods of lava tubes,and the distribution of lava tubes on the surface of different heavenly bodies in the solar system were summarized,the scientific significance and application prospects of lava tube detection were discussed.It was proposed that the Earth's lava tubes are the most important objects for planetary lava tube analogical studies and detection,and the theory and methodology of the analogical studies of lava tubes were introduced,to provide theoretical basis and simulation experimental support for future exploration of extraterrestrial lava tubes.

佘星阳;王江;黄俊;赵健楠;赵佳伟;肖龙

中国地质大学(武汉)行星科学研究所,武汉 430074中国地质大学(武汉)行星科学研究所,武汉 430074||中国地质大学(武汉)地质探测与评估教育部重点实验室,武汉 430074

天文学

熔岩管火山活动太阳系行星探测

lava tubesvolcanic activitysolar systemplanetary exploration

《深空探测学报(中英文)》 2024 (004)

前插1-前插2,313-327 / 17

国家十四五重点研发计划项目;面向月面原位建造的关键结构材料及应用基础研究(2023YFB3711300)

10.15982/j.issn.2096-9287.2024.20230163

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