Three-dimensional Atmospheric Dynamics of Jupiter from Ground-based Doppler Imaging Spectroscopy in the Visible

IF 3.8 Q2 ASTRONOMY & ASTROPHYSICS

The Planetary Science Journal Pub Date : 2024-04-16 DOI:10.3847/psj/ad3066

Francois-Xavier Schmider, Patrick Gaulme, Raúl Morales-Juberías, Jason Jackiewicz, Ivan Gonçalves, Tristan Guillot, Amy A. Simon, Michael H. Wong, Thomas Underwood, David Voelz, Cristo Sanchez, Riley DeColibus, Sarah A. Kovac, Sean Sellers, Doug Gilliam, Patrick Boumier, Thierry Appourchaux, Julien Dejonghe, Jean Pierre Rivet, Steve Markham, Saburo Howard, Lyu Abe, Djamel Mekarnia, Masahiro Ikoma, Hidekazu Hanayama, Bun’ei Sato, Masanobu Kunitomo, Hideyuki Izumiura

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引用次数: 0

Abstract

We present three-dimensional (3D) maps of Jupiter’s atmospheric circulation at cloud-top level from Doppler-imaging data obtained in the visible domain with JIVE, the second node of the JOVIAL network, which is mounted on the Dunn Solar Telescope at Sunspot, New Mexico. We report on 12 nights of observations between 2018 May 4 and May 30, representing a total of about 80 hr. First, the average zonal wind profile derived from our data is compatible with that derived from cloud-tracking measurements performed on Hubble Space Telescope images obtained in 2018 April from the Outer Planet Atmospheres Legacy program. Second, we present the first ever 2D maps of Jupiter’s atmospheric circulation from Doppler measurements. The zonal velocity map highlights well-known atmospheric features, such as the equatorial hot spots and the Great Red Spot (GRS). In addition to zonal winds, we derive meridional and vertical velocity fields from the Doppler data. The motions attributed to vertical flows are mainly located at the boundary between the equatorial belts and tropical zones, which could indicate active motion in theses regions. Qualitatively, these results compare well to recent Juno data that have unveiled the 3D structure of Jupiter’s wind field. To the contrary, the motions attributed to meridional circulation are very different from what is obtained by cloud tracking, except at the GRS. Because of limitations with data resolution and processing techniques, we acknowledge that our measurements of the vertical or meridional flows of Jupiter are still to be confirmed.

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从可见光下的地基多普勒成像分光镜观察木星的三维大气动力学特征

我们介绍了木星云顶大气环流的三维（3D）地图，这些地图是利用安装在新墨西哥州太阳黑子邓恩太阳望远镜上的 JOVIAL 网络第二个节点 JIVE 在可见光域获得的多普勒成像数据绘制的。我们报告了 2018 年 5 月 4 日至 5 月 30 日期间 12 个夜晚的观测数据，共计约 80 小时。首先，从我们的数据中得出的平均带状风剖面与2018年4月从外行星大气遗产计划中获得的哈勃太空望远镜图像上进行的云跟踪测量得出的剖面是一致的。其次，我们首次展示了通过多普勒测量得出的木星大气环流二维地图。带状速度图突出了众所周知的大气特征，如赤道热点和大红斑（GRS）。除了纵向风之外，我们还从多普勒数据中得出了经向和垂直速度场。归因于垂直流的运动主要位于赤道带和热带地区的边界，这可能表明这些地区的运动活跃。从质量上看，这些结果与最近揭示木星风场三维结构的 "朱诺 "号数据比较吻合。相反，归因于经向环流的运动与云跟踪得到的结果大相径庭，但 GRS 除外。由于数据分辨率和处理技术的限制，我们承认我们对木星垂直或经向流动的测量结果仍有待确认。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

The Planetary Science Journal Earth and Planetary Sciences-Geophysics

CiteScore

5.20

自引率

0.00%

发文量

249

审稿时长

15 weeks