Short-Timescale Spatial Variability of Ganymede's Optical Aurora

Zachariah Milby, Katherine de Kleer, Carl Schmidt, François Leblanc
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Abstract

Ganymede's aurora are the product of complex interactions between its intrinsic magnetosphere and the surrounding Jovian plasma environment and can be used to derive both atmospheric composition and density. In this study, we analyzed a time-series of Ganymede's optical aurora taken with Keck I/HIRES during eclipse by Jupiter on 2021-06-08 UTC, one day after the Juno flyby of Ganymede. The data had sufficient signal-to-noise in individual 5-minute observations to allow for the first high cadence analysis of the spatial distribution of the aurora brightness and the ratio between the 630.0 and 557.7 nm disk-integrated auroral brightnesses -- a quantity diagnostic of the relative abundances of O, O$_2$ and H$_2$O in Ganymede's atmosphere. We found that the hemisphere closer to the centrifugal equator of Jupiter's magnetosphere (where electron number density is highest) was up to twice as bright as the opposing hemisphere. The dusk (trailing) hemisphere, subjected to the highest flux of charged particles from Jupiter's magnetosphere, was also consistently almost twice as bright as the dawn (leading) hemisphere. We modeled emission from simulated O$_2$ and H$_2$O atmospheres during eclipse and found that if Ganymede hosts an H$_2$O sublimation atmosphere in sunlight, it must collapse on a faster timescale than expected to explain its absence in our data given our current understanding of Ganymede's surface properties.
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Ganymede 的光学极光的短时空间变异性
木卫三的极光是其内在磁层与周围木星等离子环境之间复杂相互作用的产物,可用于推算大气成分和密度。在这项研究中,我们分析了 Keck I/HIRES 在 2021-06-08 UTC(朱诺号飞越木卫三一天后)木星日食期间拍摄的木卫三光学极光的时间序列。这些数据在5分钟的单次观测中具有足够的信噪比,因此可以对极光亮度的空间分布以及630.0和557.7纳米磁盘积分极光亮度之间的比率进行首次高频率分析。我们发现,靠近木星磁层离心赤道的半球(电子数密度最高的地方)的亮度是相对半球的两倍。黄昏(尾部)半球受到来自木星磁层的最高带电粒子通量的影响,其亮度也一直几乎是黎明(前部)半球的两倍。我们模拟了日食期间模拟 O$_2$ 和 H$_2$O 大气层的发射,发现如果木卫二在阳光下有 H$_2$O 升华大气层,那么它的坍缩时间一定比预期的要快,这样才能解释为什么我们的数据中没有它,因为我们目前对木卫二表面特性的了解还不够。
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