2020
DOI: 10.1002/qj.3755
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The influence of deep jets on Jupiter's weather layer in a 1.5‐layer shallow‐water model

Abstract: The depth of the jet streams seen in Jupiter's outer weather layer has long been debated, with alternative suggestions of confinement to the weather layer and extensions deep into the planet being considered. Interpretation of measurements from NASA's Juno probe have suggested that weather‐layer jets do extend deep into the planet, down to depths of 𝒪 (3,000 km). However, this relies on the assumption that the jet profile does not change its spatial structure with depth, which may not be the case. In this … Show more

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Cited by 3 publications
(1 citation statement)
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“…As an example of the type of results produced by this model, Figure 7a shows the zonal-mean zonal wind profiles in the northern hemisphere of a run with deep jets, small deformation scale, and intermediate-strength radiative damping. This integration, as do most in a Jupiter-like regime, shows significant matching between the weather-layer jets and the prescribed deep jets (see [67] for more detailed analysis). This includes the equatorial regions, where the upper-layer jets super-rotate, reflecting the super-rotating deep jets that were prescribed.…”
Section: A Simple Modelmentioning
confidence: 64%
“…As an example of the type of results produced by this model, Figure 7a shows the zonal-mean zonal wind profiles in the northern hemisphere of a run with deep jets, small deformation scale, and intermediate-strength radiative damping. This integration, as do most in a Jupiter-like regime, shows significant matching between the weather-layer jets and the prescribed deep jets (see [67] for more detailed analysis). This includes the equatorial regions, where the upper-layer jets super-rotate, reflecting the super-rotating deep jets that were prescribed.…”
Section: A Simple Modelmentioning
confidence: 64%