Jovian Vortex Hunter: a citizen science project to study Jupiter's vortices

Ramanakumar Sankar, Shawn Brueshaber, Lucy Fortson, Candice Hansen-Koharcheck, Chris Lintott, Cooper Nesmith, Glenn Orton
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Abstract

The Jovian atmosphere contains a wide diversity of vortices, which have a large range of sizes, colors and forms in different dynamical regimes. The formation processes for these vortices is poorly understood, and aside from a few known, long-lived ovals, such as the Great Red Spot, and Oval BA, vortex stability and their temporal evolution are currently largely unknown. In this study, we use JunoCam data and a citizen-science project on Zooniverse to derive a catalog of vortices, some with repeated observations, through May 2018 to Sep 2021, and analyze their associated properties, such as size, location and color. We find that different colored vortices (binned as white, red, brown and dark), follow vastly different distributions in terms of their sizes and where they are found on the planet. We employ a simplified stability criterion using these vortices as a proxy, to derive a minimum Rossby deformation length for the planet of $\sim1800$ km. We find that this value of $L_d$ is largely constant throughout the atmosphere, and does not have an appreciable meridional gradient.
木星旋涡猎手:研究木星旋涡的公民科学项目
彗星大气层中存在着各种各样的旋涡,它们在不同的动力学状态下具有不同的大小、颜色和形态。人们对这些旋涡的形成过程知之甚少,除了一些已知的长寿椭圆形旋涡(如大红斑和椭圆形 BA)之外,旋涡的稳定性及其时间演化目前在很大程度上还不为人所知。在这项研究中,我们利用朱诺相机(JunoCam)的数据和 Zooniverse 上的一个公民科学项目,编制了一份从 2018 年 5 月到 2021 年 9 月的涡旋目录,其中一些涡旋是重复观测的,并分析了它们的相关特性,如大小、位置和颜色。我们发现,不同颜色的涡旋(分为白色、红色、棕色和深色)在大小和在地球上的位置分布上大相径庭。我们采用简化的稳定性标准,以这些旋涡为代表,推导出行星的最小罗斯比变形长度为$\sim1800$ km。我们发现这个 $L_d$ 值在整个大气层中基本恒定,而且没有明显的子午线梯度。
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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