Flow dynamics and thermal effects in the ejecta of the multiple-layered Kotka crater on Mars

IF 1.8 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS
Fabio Vittorio De Blasio , Fabio Ciceri , Giovanni Battista Crosta
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Abstract

The multiple-layered ejecta surrounding crater Kotka (east of Elysium Mons) are studied using imagery and physical modelling. This particular crater was chosen not only because its ejecta are well preserved, but more importantly because the impact area is surrounded by mounds, which provide a means of determining the velocity of the ejecta based on run-up criteria. If the ejecta passed over a mound of a certain height, the velocity was greater than that necessary to rise up that height, while the presence of a shadow beyond the mound indicates a velocity lower than that limit. Top ejecta flow velocities were found to vary between 25 m/s and 80 m/s. Velocities are also determined based on the length of the jump against craters rims, a criterion that provides an estimate of the velocity, rather than a limit, and are found to be compatible with those estimated with run-up criteria. We find that a first train of ejecta travelling at high velocity was capable of overcoming many mounds. A peculiar rampart often visible at the foot of many of the mounds is interpreted as a frozen hydraulic jump indicating a phase in which the ejecta were about to stop.

The velocity of the ejecta was found to decrease with distance from the rim but not as fast as a constant friction model would suggest, indicating effective friction that increases with distance, and more complex rheology than pure frictional behavior. The velocities indicate a rheology for the fluidized ejecta in which the debris material was completely fluidized, to the point that the friction coefficient decreased by one to two orders of magnitude compared to the one of fragmented rock. Our conceptual model is that the ejecta material initially contained a large amount of solid ice that was fluidized and vaporized by the impact. The chains of pits visible in the ejecta, interpreted as fossilized bubbles of volatiles released through the hot fluidized material, confirm that high temperatures were reached during impact, as also indicated by analytical estimates. Fluidization altered the rheology of the ejecta in a way that has yet to be understood.

火星多层科特卡陨石坑喷出岩的流动动力学和热效应
利用图像和物理建模对科特卡火山口(极乐门以东)周围的多层喷出岩进行了研究。之所以选择这个特殊的陨石坑,不仅是因为它的喷出物保存完好,更重要的是因为撞击区周围布满了土丘,这些土丘提供了一种根据上升标准确定喷出物速度的方法。如果喷出物越过一定高度的土丘,则速度大于上升到该高度所需的速度,而在土丘外出现阴影则表明速度低于该限度。顶喷流速度介于 25 米/秒和 80 米/秒之间。速度也是根据陨石坑边缘的跳跃长度确定的,这一标准提供了速度的估计值,而不是极限值。我们发现,高速飞行的第一列喷出物能够越过许多弹坑。我们发现,喷出物的速度随着与边缘距离的增加而降低,但并不像恒定摩擦模型所显示的那样快,这表明有效摩擦力随着距离的增加而增加,流变学比纯摩擦行为更为复杂。速度表明,流态化喷出物的流变性是碎屑物质完全流态化,以至于摩擦系数比碎裂岩石的摩擦系数降低了一到两个数量级。我们的概念模型是,喷出物质最初含有大量固体冰,在撞击中被流化和汽化。喷出物质中可见的坑链被解释为高温流化物质释放出的挥发物气泡化石,这证实了撞击过程中达到了高温,分析估算也表明了这一点。流体化改变了喷出岩的流变学,其方式尚待了解。
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来源期刊
Planetary and Space Science
Planetary and Space Science 地学天文-天文与天体物理
CiteScore
5.40
自引率
4.20%
发文量
126
审稿时长
15 weeks
期刊介绍: Planetary and Space Science publishes original articles as well as short communications (letters). Ground-based and space-borne instrumentation and laboratory simulation of solar system processes are included. The following fields of planetary and solar system research are covered: • Celestial mechanics, including dynamical evolution of the solar system, gravitational captures and resonances, relativistic effects, tracking and dynamics • Cosmochemistry and origin, including all aspects of the formation and initial physical and chemical evolution of the solar system • Terrestrial planets and satellites, including the physics of the interiors, geology and morphology of the surfaces, tectonics, mineralogy and dating • Outer planets and satellites, including formation and evolution, remote sensing at all wavelengths and in situ measurements • Planetary atmospheres, including formation and evolution, circulation and meteorology, boundary layers, remote sensing and laboratory simulation • Planetary magnetospheres and ionospheres, including origin of magnetic fields, magnetospheric plasma and radiation belts, and their interaction with the sun, the solar wind and satellites • Small bodies, dust and rings, including asteroids, comets and zodiacal light and their interaction with the solar radiation and the solar wind • Exobiology, including origin of life, detection of planetary ecosystems and pre-biological phenomena in the solar system and laboratory simulations • Extrasolar systems, including the detection and/or the detectability of exoplanets and planetary systems, their formation and evolution, the physical and chemical properties of the exoplanets • History of planetary and space research
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