An intense narrow equatorial jet in Jupiter’s lower stratosphere observed by JWST

Ricardo Hueso; Agustín Sánchez-Lavega; Thierry Fouchet; Imke de Pater; Arrate Antuñano; Leigh N. Fletcher; Michael H. Wong; Pablo Rodríguez-Ovalle; Lawrence A. Sromovsky; Patrick M. Fry; Glenn S. Orton; Sandrine Guerlet; Patrick G.J. Irwin; Emmanuel Lellouch; Jake Harkett; Katherine de Kleer; Henrik Melin; Vincent Hue; Amy A. Simon; Statia Luszcz-Cook; Kunio M. Sayanagi

doi:10.1038/s41550-023-02099-2

An intense narrow equatorial jet in Jupiter’s lower stratosphere observed by JWST

Ricardo Hueso
, Agustín Sánchez-Lavega
, Thierry Fouchet
, Imke de Pater
, Arrate Antuñano
, Leigh N. Fletcher
, Michael H. Wong
, Pablo Rodríguez-Ovalle
, Lawrence A. Sromovsky
, Patrick M. Fry
, Glenn S. Orton
, Sandrine Guerlet
, Patrick G.J. Irwin
, Emmanuel Lellouch
, Jake Harkett
, Katherine de Kleer
, Henrik Melin
, Vincent Hue
, Amy A. Simon
, Statia Luszcz-Cook

Kunio M. Sayanagi

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

The atmosphere of Jupiter has east–west zonal jets that alternate as a function of latitude as tracked by cloud motions at tropospheric levels. Above and below the cold tropopause at ~100 mbar, the equatorial atmosphere is covered by hazes at levels where thermal infrared observations used to characterize the dynamics of the stratosphere lose part of their sensitivity. James Webb Space Telescope observations of Jupiter in July 2022 show these hazes in higher detail than ever before and reveal the presence of an intense (140 m s⁻¹) equatorial jet at 100–200 mbar (70 m s⁻¹ faster than the zonal winds at the cloud level) that is confined to ±3° of the equator and is located below stratospheric thermal oscillations that extend at least from 0.1 to 40 mbar and repeat in multiyear cycles. This suggests that the new jet is a deep part of Jupiter’s Equatorial Stratospheric Oscillation and may therefore vary in strength over time.

langue originale	Anglais
Pages (de - à)	1454-1462
Nombre de pages	9
journal	Nature Astronomy
Volume	7
Numéro de publication	12
Les DOIs	https://doi.org/10.1038/s41550-023-02099-2
état	Publié - 1 déc. 2023

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Hueso, R., Sánchez-Lavega, A., Fouchet, T., de Pater, I., Antuñano, A., Fletcher, L. N., Wong, M. H., Rodríguez-Ovalle, P., Sromovsky, L. A., Fry, P. M., Orton, G. S., Guerlet, S., Irwin, P. G. J., Lellouch, E., Harkett, J., de Kleer, K., Melin, H., Hue, V., Simon, A. A., ... Sayanagi, K. M. (2023). An intense narrow equatorial jet in Jupiter’s lower stratosphere observed by JWST. Nature Astronomy, 7(12), 1454-1462. https://doi.org/10.1038/s41550-023-02099-2

@article{5cf6538632214929aea65b239a9f9e3e,

title = "An intense narrow equatorial jet in Jupiter{\textquoteright}s lower stratosphere observed by JWST",

abstract = "The atmosphere of Jupiter has east–west zonal jets that alternate as a function of latitude as tracked by cloud motions at tropospheric levels. Above and below the cold tropopause at \textasciitilde{}100 mbar, the equatorial atmosphere is covered by hazes at levels where thermal infrared observations used to characterize the dynamics of the stratosphere lose part of their sensitivity. James Webb Space Telescope observations of Jupiter in July 2022 show these hazes in higher detail than ever before and reveal the presence of an intense (140 m s−1) equatorial jet at 100–200 mbar (70 m s−1 faster than the zonal winds at the cloud level) that is confined to ±3° of the equator and is located below stratospheric thermal oscillations that extend at least from 0.1 to 40 mbar and repeat in multiyear cycles. This suggests that the new jet is a deep part of Jupiter{\textquoteright}s Equatorial Stratospheric Oscillation and may therefore vary in strength over time.",

author = "Ricardo Hueso and Agust{\'i}n S{\'a}nchez-Lavega and Thierry Fouchet and \{de Pater\}, Imke and Arrate Antu{\~n}ano and Fletcher, \{Leigh N.\} and Wong, \{Michael H.\} and Pablo Rodr{\'i}guez-Ovalle and Sromovsky, \{Lawrence A.\} and Fry, \{Patrick M.\} and Orton, \{Glenn S.\} and Sandrine Guerlet and Irwin, \{Patrick G.J.\} and Emmanuel Lellouch and Jake Harkett and \{de Kleer\}, Katherine and Henrik Melin and Vincent Hue and Simon, \{Amy A.\} and Statia Luszcz-Cook and Sayanagi, \{Kunio M.\}",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = dec,

day = "1",

doi = "10.1038/s41550-023-02099-2",

language = "English",

volume = "7",

pages = "1454--1462",

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Hueso, R, Sánchez-Lavega, A, Fouchet, T, de Pater, I, Antuñano, A, Fletcher, LN, Wong, MH, Rodríguez-Ovalle, P, Sromovsky, LA, Fry, PM, Orton, GS, Guerlet, S, Irwin, PGJ, Lellouch, E, Harkett, J, de Kleer, K, Melin, H, Hue, V, Simon, AA, Luszcz-Cook, S & Sayanagi, KM 2023, 'An intense narrow equatorial jet in Jupiter’s lower stratosphere observed by JWST', Nature Astronomy, VOL. 7, Numéro 12, p. 1454-1462. https://doi.org/10.1038/s41550-023-02099-2

TY - JOUR

T1 - An intense narrow equatorial jet in Jupiter’s lower stratosphere observed by JWST

AU - Hueso, Ricardo

AU - Sánchez-Lavega, Agustín

AU - Fouchet, Thierry

AU - de Pater, Imke

AU - Antuñano, Arrate

AU - Fletcher, Leigh N.

AU - Wong, Michael H.

AU - Rodríguez-Ovalle, Pablo

AU - Sromovsky, Lawrence A.

AU - Fry, Patrick M.

AU - Orton, Glenn S.

AU - Guerlet, Sandrine

AU - Irwin, Patrick G.J.

AU - Lellouch, Emmanuel

AU - Harkett, Jake

AU - de Kleer, Katherine

AU - Melin, Henrik

AU - Hue, Vincent

AU - Simon, Amy A.

AU - Luszcz-Cook, Statia

AU - Sayanagi, Kunio M.

PY - 2023/12/1

Y1 - 2023/12/1

N2 - The atmosphere of Jupiter has east–west zonal jets that alternate as a function of latitude as tracked by cloud motions at tropospheric levels. Above and below the cold tropopause at ~100 mbar, the equatorial atmosphere is covered by hazes at levels where thermal infrared observations used to characterize the dynamics of the stratosphere lose part of their sensitivity. James Webb Space Telescope observations of Jupiter in July 2022 show these hazes in higher detail than ever before and reveal the presence of an intense (140 m s−1) equatorial jet at 100–200 mbar (70 m s−1 faster than the zonal winds at the cloud level) that is confined to ±3° of the equator and is located below stratospheric thermal oscillations that extend at least from 0.1 to 40 mbar and repeat in multiyear cycles. This suggests that the new jet is a deep part of Jupiter’s Equatorial Stratospheric Oscillation and may therefore vary in strength over time.

AB - The atmosphere of Jupiter has east–west zonal jets that alternate as a function of latitude as tracked by cloud motions at tropospheric levels. Above and below the cold tropopause at ~100 mbar, the equatorial atmosphere is covered by hazes at levels where thermal infrared observations used to characterize the dynamics of the stratosphere lose part of their sensitivity. James Webb Space Telescope observations of Jupiter in July 2022 show these hazes in higher detail than ever before and reveal the presence of an intense (140 m s−1) equatorial jet at 100–200 mbar (70 m s−1 faster than the zonal winds at the cloud level) that is confined to ±3° of the equator and is located below stratospheric thermal oscillations that extend at least from 0.1 to 40 mbar and repeat in multiyear cycles. This suggests that the new jet is a deep part of Jupiter’s Equatorial Stratospheric Oscillation and may therefore vary in strength over time.

UR - https://www.scopus.com/pages/publications/85174523711

U2 - 10.1038/s41550-023-02099-2

DO - 10.1038/s41550-023-02099-2

M3 - Article

AN - SCOPUS:85174523711

SN - 2397-3366

VL - 7

SP - 1454

EP - 1462

JO - Nature Astronomy

JF - Nature Astronomy

IS - 12

ER -

An intense narrow equatorial jet in Jupiter’s lower stratosphere observed by JWST

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