Ramanakumar Sankar, Shawn Brueshaber, Lucy Fortson, Candice Hansen-Koharcheck, Chris Lintott, Cooper Nesmith, Glenn Orton
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Jovian Vortex Hunter: a citizen science project to study Jupiter's vortices
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.
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