Microwave observations reveal the deep extent and structure of Jupiter’s atmospheric vortices

S J Bolton,C Li,S M Levin,J H Waite,Z Zhang,S Gulkis,T Guillot,M Allison,M H Wong,Heidi N Becker ,Jonathan Lunine ,D J Stevenson ,Leigh Fletcher ,Paul G Steffes ,S K Atreya ,Eli Galanti ,J K Arballo ,Sidharth Misra ,Fabiano Oyafuso ,Yohai Kaspi ,Rakesh K Yadav ,Andrew P Ingersoll ,Jeremy Bloxham ,Glenn S Orton ,M A Janssen ,Shannon Brown

doi:10.1126/science.abf1015

Abstract

Jupiter’s atmosphere has a system of zones and belts punctuated by small and large vortices, the largest being the Great Red Spot. How these features change with depth is unknown, with theories of their structure ranging from shallow meteorological features to surface expressions of deep-seated convection. We present observations of atmospheric vortices using the Juno spacecraft’s Microwave Radiometer. We found vortex roots that extend deeper than the altitude at which water is expected to condense, and we identified density inversion layers. Our results constrain the three-dimensional structure of Jupiter’s vortices and their extension below the clouds.

Highlights

First release: 28 October 2021 www.sciencemag.org (Page numbers not final at time of first release) 1 μ σ δ Δ www.sciencemag.org (Page numbers not final at time of first release) 2.