The pre-perihelion evolution of the activity of comet C/2017 K2 (PANSTARRS) during the water ice-line crossover

arXiv - PHYS - Earth and Planetary Astrophysics Pub Date : 2024-08-03 DOI:arxiv-2408.01636

Yuna G. Kwon, Stefano Bagnulo, Johannes Markkanen, Ludmilla Kolokolova, Jessica Agarwal, Manuela Lippi, Zuri Gray

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Abstract

Comets, relics from the early solar system, consist of dust and ice. The ice sublimates as comets approach the Sun, ejecting dust from their nuclei seen as activity. Different volatiles sublimate at different Sun-comet distances and eject dust of unique sizes, structures, and compositions. In this study, we present new polarimetric observations of Oort-cloud comet C/2017 K2 (PANSTARRS) in R and I-filter domains before, during, and after its crossover of the water-ice sublimation regime at phase angles of 15.9\arcdeg, 10.5\arcdeg, and 20.0\arcdeg, respectively. Combining multiband optical imaging data covering a wide range of heliocentric distances ($\sim$14$-$2.3 au), we aim to characterize the preperihelion evolution of cometary activity as well as the properties of its coma dust. Two discontinuous brightening events were observed: at $\sim$6 au presumably associated with changes in CO-like supervolatile ice activity, and at $\sim$2.9 au when water ice took over. Particularly, the latter activation is accompanied by changes in coma morphology and color whose trends differ between the inner ($\sim$10$^3$-km) and outer ($\sim$10$^4$-km) parts of the coma. No polarimetric discontinuities on the comet were observed over the inner coma region, all epochs showing phase-angle and wavelength dependencies compatible with those of active comets observed in similar observing geometry. During this period, the underlying dust continuum overwhelmed H$\alpha$ emission at around 656.3 nm, suggesting less water ice on the comet's surface than expected. We discuss K2's coma environment by combining numerical simulations of light scattered by dust and place the observations within the context of the comet's evolution.

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水冰线交叉期间 C/2017 K2（PANSTARRS）彗星活动的近日点前演变

彗星是早期太阳系的遗迹，由尘埃和冰组成。当彗星接近太阳时，冰会升华，从彗核中喷射出尘埃。不同的挥发物在不同的太阳-彗星距离上升华，并喷射出具有独特大小、结构和成分的尘埃。在这项研究中，我们展示了在相位角分别为15.9\arcdeg、10.5\arcdeg和20.0\arcdeg时，对奥特云彗星C/2017 K2（PANSTARRS）在R和I滤波域进行的新的极坐标观测，观测时间跨度分别为15.9\arcdeg、10.5\arcdeg和20.0\arcdeg。结合覆盖整个日心距离范围（$\sim$14$-$2.3au）的多波段光学成像数据，我们的目的是描述彗星活动在近日点前的演变过程及其彗尘的特性。我们观测到了两个不连续的增亮事件：在$\sim$6 au处，可能与CO-类超挥发性冰活动的变化有关；在$\sim$2.9 au处，当水冰接管时，特别是后者的激活伴随着组合形态和颜色的变化，其趋势在彗星内部（$\sim$10$^3$-km）和外部（$\sim$10$^4$-km）有所不同。在彗尾内部区域没有观测到彗星的极坐标不连续现象，所有纪元都显示出与在类似观测几何条件下观测到的活动彗星相符合的相位角和波长依赖关系。在此期间，底层尘埃连续压倒了波长约为656.3 nm的H$\alpha$发射，这表明彗星表面的水冰比预期的要少。我们结合尘埃散射光的数值模拟来讨论 K2 的彗星环境，并将观测结果置于彗星演化的背景中。

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arXiv - PHYS - Earth and Planetary Astrophysics

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