JUICE任务中木卫三激光高度计(GALA)的科学目标

J. Kimura, H. Hussmann, S. Kamata, Koji Matsumoto, J. Oberst, Gregor Steinbrugge, A. Stark, K. Gwinner, S. Oshigami, N. Namiki, K. Lingenauber, K. Enya, K. Kuramoto, S. Sasaki
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引用次数: 9

摘要

激光测高是解决行星物理学和大地测量学主要目标的有力工具,已应用于月球、火星、水星、小行星爱神星和伊特川的行星探测。由欧洲航天局(ESA)领导的木星冰卫星探测器(JUICE)已经开始探索气态巨行星周围宜居世界的出现。Ganymede激光高度计(GALA)将是第一个用于冰体的激光高度计,并将测量木星的大型冰卫星的形状和地形(Ganymede是全球范围的,木卫二和木卫四使用飞越地面轨道)。这些信息对于了解地表特征的形成是至关重要的,并且可以极大地提高我们对冰构造的理解。此外,GALA将通过测量潮汐和旋转响应来推断地下海洋的存在与否。此外,它还与射电科学实验合作,提高了反映内部结构的重力场测量的精度。除了距离测量之外,从月球表面反射的激光脉冲的信号强度和波形包含了激光波长下的表面反射率和小尺度粗糙度的信息。因此,我们可以在不受光照条件影响的情况下,通过GALA测量来推断化学和物理变化的程度,例如侵蚀、空间风化、压实和外源物质的沉积。JUICE航天器携带包括GALA在内的10个科学有效载荷。它们以一种协同的方式密切合作,GALA是了解冰卫星Ganymede, Europa和Callisto演变的关键工具之一。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Science Objectives of the Ganymede Laser Altimeter (GALA) for the JUICE Mission
Laser altimetry is a powerful tool for addressing the major objectives of planetary physics and geodesy, and have been applied in planetary explorations of the Moon, Mars, Mercury, and the asteroids Eros, and Itokawa. The JUpiter Icy Moons Explorer (JUICE), led by European Space Agency (ESA), has started development to explore the emergence of habitable worlds around gas giants. The Ganymede Laser Altimeter (GALA) will be the first laser altimeter for icy bodies, and will measure the shape and topography of the large icy moons of Jupiter, (globally for Ganymede, and using flyby ground-tracks for Europa and Callisto). Such information is crucial for understanding the formation of surface features and can tremendously improve our understanding of the icy tectonics. In addition, the GALA will infer the presence or absence of a subsurface ocean by measuring the tidal and rotational responses. Furthermore, it also improves the accuracy of gravity field measurements reflecting the interior structure, collaborating with the radio science experiment. In addition to range measurements, the signal strength and the waveform of the laser pulses reflected from the moon's surface contain information about surface reflectance at the laser wavelength and small scale roughness. Therefore we can infer the degrees of chemical and physical alterations, e.g., erosion, space weathering, compaction and deposition of exogenous materials, through GALA measurements without being affected by illumination conditions. JUICE spacecraft carries ten science payloads including GALA. They work closely together in a synergistic way with GALA being one of the key instruments for understanding the evolution of the icy satellites Ganymede, Europa, and Callisto.
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