Constraints on the Latitudinal Profile of Jupiter's Deep Jets

Eli Galanti; Yohai Kaspi; Keren Duer; Leigh Fletcher; Andrew P. Ingersoll; Cheng Li; Glenn S. Orton; Tristan Guillot; Steven M. Levin; Scott J. Bolton

doi:10.1029/2021GL092912

Constraints on the Latitudinal Profile of Jupiter's Deep Jets

Eli Galanti, Yohai Kaspi, Keren Duer, Leigh Fletcher, Andrew P. Ingersoll, Cheng Li, Glenn S. Orton, Tristan Guillot, Steven M. Levin, Scott J. Bolton

Department of Earth and Planetary Sciences

Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

Abstract

The observed zonal winds at Jupiter's cloud tops have been shown to be closely linked to the asymmetric part of the planet's measured gravity field. Here, we examine to what extent, and at which latitudes, must the flows at depth resemble those at the cloud level to match the gravity signal. We show, using both the symmetric and asymmetric parts of the measured gravity field, that the observed cloud-level wind profile between 25°S and 25°N must extend unaltered to depths of thousands of kilometers. Poleward, the midlatitude deep jets also contribute to the gravity signal, but might differ somewhat from the cloud-level winds. We analyze the likelihood of this difference and give bounds to its strength. We also find that to match the gravity measurements, the winds must project inward in the direction parallel to Jupiter's spin axis, and decay inward in the radial direction.

Original language	English
Article number	e2021GL092912
Number of pages	10
Journal	Geophysical Research Letters
Volume	48
Issue number	9
Early online date	20 Apr 2021
DOIs	https://doi.org/10.1029/2021GL092912
State	Published - 16 May 2021

All Science Journal Classification (ASJC) codes

Geophysics
General Earth and Planetary Sciences

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10.1029/2021GL092912

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title = "Constraints on the Latitudinal Profile of Jupiter's Deep Jets",

abstract = "The observed zonal winds at Jupiter's cloud tops have been shown to be closely linked to the asymmetric part of the planet's measured gravity field. Here, we examine to what extent, and at which latitudes, must the flows at depth resemble those at the cloud level to match the gravity signal. We show, using both the symmetric and asymmetric parts of the measured gravity field, that the observed cloud-level wind profile between 25°S and 25°N must extend unaltered to depths of thousands of kilometers. Poleward, the midlatitude deep jets also contribute to the gravity signal, but might differ somewhat from the cloud-level winds. We analyze the likelihood of this difference and give bounds to its strength. We also find that to match the gravity measurements, the winds must project inward in the direction parallel to Jupiter's spin axis, and decay inward in the radial direction.",

author = "Eli Galanti and Yohai Kaspi and Keren Duer and Leigh Fletcher and Ingersoll, {Andrew P.} and Cheng Li and Orton, {Glenn S.} and Tristan Guillot and Levin, {Steven M.} and Bolton, {Scott J.}",

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doi = "10.1029/2021GL092912",

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T1 - Constraints on the Latitudinal Profile of Jupiter's Deep Jets

AU - Galanti, Eli

AU - Kaspi, Yohai

AU - Duer, Keren

AU - Fletcher, Leigh

AU - Ingersoll, Andrew P.

AU - Li, Cheng

AU - Orton, Glenn S.

AU - Guillot, Tristan

AU - Levin, Steven M.

AU - Bolton, Scott J.

PY - 2021/5/16

Y1 - 2021/5/16

N2 - The observed zonal winds at Jupiter's cloud tops have been shown to be closely linked to the asymmetric part of the planet's measured gravity field. Here, we examine to what extent, and at which latitudes, must the flows at depth resemble those at the cloud level to match the gravity signal. We show, using both the symmetric and asymmetric parts of the measured gravity field, that the observed cloud-level wind profile between 25°S and 25°N must extend unaltered to depths of thousands of kilometers. Poleward, the midlatitude deep jets also contribute to the gravity signal, but might differ somewhat from the cloud-level winds. We analyze the likelihood of this difference and give bounds to its strength. We also find that to match the gravity measurements, the winds must project inward in the direction parallel to Jupiter's spin axis, and decay inward in the radial direction.

AB - The observed zonal winds at Jupiter's cloud tops have been shown to be closely linked to the asymmetric part of the planet's measured gravity field. Here, we examine to what extent, and at which latitudes, must the flows at depth resemble those at the cloud level to match the gravity signal. We show, using both the symmetric and asymmetric parts of the measured gravity field, that the observed cloud-level wind profile between 25°S and 25°N must extend unaltered to depths of thousands of kilometers. Poleward, the midlatitude deep jets also contribute to the gravity signal, but might differ somewhat from the cloud-level winds. We analyze the likelihood of this difference and give bounds to its strength. We also find that to match the gravity measurements, the winds must project inward in the direction parallel to Jupiter's spin axis, and decay inward in the radial direction.

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U2 - 10.1029/2021GL092912

DO - 10.1029/2021GL092912

M3 - مقالة

SN - 0094-8276

VL - 48

JO - Geophysical Research Letters

JF - Geophysical Research Letters

IS - 9

M1 - e2021GL092912

ER -

Constraints on the Latitudinal Profile of Jupiter's Deep Jets

Abstract

All Science Journal Classification (ASJC) codes

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