The atmosphere of Titan in late northern summer from JWST and Keck observations

Conor A. Nixon; Bruno Bézard; Thomas Cornet; Brandon Park Coy; Imke de Pater; Maël Es-Sayeh; Heidi B. Hammel; Emmanuel Lellouch; Nicholas A. Lombardo; Manuel López-Puertas; Juan M. Lora; Pascal Rannou; Sébastien Rodriguez; Nicholas A. Teanby; Elizabeth P. Turtle; Richard K. Achterberg; Carlos Alvarez; Ashley G. Davies; Katherine de Kleer; Greg Doppmann; Leigh N. Fletcher; Alexander G. Hayes; Bryan J. Holler; Patrick G.J. Irwin; Carolyn Jordan; Oliver R.T. King; Nicholas W. Kutsop; Theresa C. Marlin; Henrik Melin; Stefanie N. Milam; Edward M. Molter; Luke Moore; Yaniss Nyffenegger-Péré; James O’Donoghue; John O’Meara; Scot C.R. Rafkin; Michael T. Roman; Arina Rostopchina; Naomi Rowe-Gurney; Carl Schmidt; Judy Schmidt; Christophe Sotin; Tom S. Stallard; John A. Stansberry; Robert A. West

doi:10.1038/s41550-025-02537-3

The atmosphere of Titan in late northern summer from JWST and Keck observations

Conor A. Nixon^*, Bruno Bézard, Thomas Cornet, Brandon Park Coy, Imke de Pater, Maël Es-Sayeh, Heidi B. Hammel, Emmanuel Lellouch, Nicholas A. Lombardo, Manuel López-Puertas, Juan M. Lora, Pascal Rannou, Sébastien Rodriguez, Nicholas A. Teanby, Elizabeth P. Turtle, Richard K. Achterberg, Carlos Alvarez, Ashley G. Davies, Katherine de Kleer, Greg DoppmannLeigh N. Fletcher, Alexander G. Hayes, Bryan J. Holler, Patrick G.J. Irwin, Carolyn Jordan, Oliver R.T. King, Nicholas W. Kutsop, Theresa C. Marlin, Henrik Melin, Stefanie N. Milam, Edward M. Molter, Luke Moore, Yaniss Nyffenegger-Péré, James O’Donoghue, John O’Meara, Scot C.R. Rafkin, Michael T. Roman, Arina Rostopchina, Naomi Rowe-Gurney, Carl Schmidt, Judy Schmidt, Christophe Sotin, Tom S. Stallard, John A. Stansberry, Robert A. West

^*Corresponding author for this work

Mathematics, Physics and Electrical Engineering

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

Abstract

Saturn’s moon Titan undergoes a long annual cycle of 29.45 Earth years. Titan’s northern winter and spring were investigated in detail by the Cassini–Huygens spacecraft (2004–2017), but the northern summer season remains sparsely studied. Here we present new observations from the James Webb Space Telescope (JWST) and Keck II telescope made in 2022 and 2023 during Titan’s late northern summer. Using JWST’s mid-infrared instrument, we spectroscopically detected the methyl radical, the primary product of methane break-up and key to the formation of ethane and heavier molecules. Using the near-infrared spectrograph onboard JWST, we detected several non-local thermodynamic equilibrium CO and CO₂ emission bands, which allowed us to measure these species over a wide altitude range. Lastly, using the near-infrared camera onboard JWST and Keck II, we imaged northern hemisphere tropospheric clouds evolving in altitude, which provided new insights and constraints on seasonal convection patterns. These observations pave the way for new observations and modelling of Titan’s climate and meteorology as it progresses through the northern fall equinox, when its atmosphere is expected to show notable seasonal changes.

Original language	English
Pages (from-to)	1-21
Number of pages	21
Journal	Nature Astronomy
Early online date	14 May 2025
DOIs	https://doi.org/10.1038/s41550-025-02537-3
Publication status	E-pub ahead of print - 14 May 2025

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1038/s41550-025-02537-3

Cite this

Nixon, C. A., Bézard, B., Cornet, T., Coy, B. P., de Pater, I., Es-Sayeh, M., Hammel, H. B., Lellouch, E., Lombardo, N. A., López-Puertas, M., Lora, J. M., Rannou, P., Rodriguez, S., Teanby, N. A., Turtle, E. P., Achterberg, R. K., Alvarez, C., Davies, A. G., de Kleer, K., ... West, R. A. (2025). The atmosphere of Titan in late northern summer from JWST and Keck observations. Nature Astronomy, 1-21. Advance online publication. https://doi.org/10.1038/s41550-025-02537-3

@article{73bf66fffec84f22818e68728975d7a6,

title = "The atmosphere of Titan in late northern summer from JWST and Keck observations",

abstract = "Saturn{\textquoteright}s moon Titan undergoes a long annual cycle of 29.45 Earth years. Titan{\textquoteright}s northern winter and spring were investigated in detail by the Cassini–Huygens spacecraft (2004–2017), but the northern summer season remains sparsely studied. Here we present new observations from the James Webb Space Telescope (JWST) and Keck II telescope made in 2022 and 2023 during Titan{\textquoteright}s late northern summer. Using JWST{\textquoteright}s mid-infrared instrument, we spectroscopically detected the methyl radical, the primary product of methane break-up and key to the formation of ethane and heavier molecules. Using the near-infrared spectrograph onboard JWST, we detected several non-local thermodynamic equilibrium CO and CO2 emission bands, which allowed us to measure these species over a wide altitude range. Lastly, using the near-infrared camera onboard JWST and Keck II, we imaged northern hemisphere tropospheric clouds evolving in altitude, which provided new insights and constraints on seasonal convection patterns. These observations pave the way for new observations and modelling of Titan{\textquoteright}s climate and meteorology as it progresses through the northern fall equinox, when its atmosphere is expected to show notable seasonal changes.",

author = "Nixon, {Conor A.} and Bruno B{\'e}zard and Thomas Cornet and Coy, {Brandon Park} and {de Pater}, Imke and Ma{\"e}l Es-Sayeh and Hammel, {Heidi B.} and Emmanuel Lellouch and Lombardo, {Nicholas A.} and Manuel L{\'o}pez-Puertas and Lora, {Juan M.} and Pascal Rannou and S{\'e}bastien Rodriguez and Teanby, {Nicholas A.} and Turtle, {Elizabeth P.} and Achterberg, {Richard K.} and Carlos Alvarez and Davies, {Ashley G.} and {de Kleer}, Katherine and Greg Doppmann and Fletcher, {Leigh N.} and Hayes, {Alexander G.} and Holler, {Bryan J.} and Irwin, {Patrick G.J.} and Carolyn Jordan and King, {Oliver R.T.} and Kutsop, {Nicholas W.} and Marlin, {Theresa C.} and Henrik Melin and Milam, {Stefanie N.} and Molter, {Edward M.} and Luke Moore and Yaniss Nyffenegger-P{\'e}r{\'e} and James O{\textquoteright}Donoghue and John O{\textquoteright}Meara and Rafkin, {Scot C.R.} and Roman, {Michael T.} and Arina Rostopchina and Naomi Rowe-Gurney and Carl Schmidt and Judy Schmidt and Christophe Sotin and Stallard, {Tom S.} and Stansberry, {John A.} and West, {Robert A.}",

year = "2025",

month = may,

day = "14",

doi = "10.1038/s41550-025-02537-3",

language = "English",

pages = "1--21",

journal = "Nature Astronomy",

issn = "2397-3366",

publisher = "Nature Publishing Group",

}

Nixon, CA, Bézard, B, Cornet, T, Coy, BP, de Pater, I, Es-Sayeh, M, Hammel, HB, Lellouch, E, Lombardo, NA, López-Puertas, M, Lora, JM, Rannou, P, Rodriguez, S, Teanby, NA, Turtle, EP, Achterberg, RK, Alvarez, C, Davies, AG, de Kleer, K, Doppmann, G, Fletcher, LN, Hayes, AG, Holler, BJ, Irwin, PGJ, Jordan, C, King, ORT, Kutsop, NW, Marlin, TC, Melin, H, Milam, SN, Molter, EM, Moore, L, Nyffenegger-Péré, Y, O’Donoghue, J, O’Meara, J, Rafkin, SCR, Roman, MT, Rostopchina, A, Rowe-Gurney, N, Schmidt, C, Schmidt, J, Sotin, C, Stallard, TS, Stansberry, JA & West, RA 2025, 'The atmosphere of Titan in late northern summer from JWST and Keck observations', Nature Astronomy, pp. 1-21. https://doi.org/10.1038/s41550-025-02537-3

TY - JOUR

T1 - The atmosphere of Titan in late northern summer from JWST and Keck observations

AU - Nixon, Conor A.

AU - Bézard, Bruno

AU - Cornet, Thomas

AU - Coy, Brandon Park

AU - de Pater, Imke

AU - Es-Sayeh, Maël

AU - Hammel, Heidi B.

AU - Lellouch, Emmanuel

AU - Lombardo, Nicholas A.

AU - López-Puertas, Manuel

AU - Lora, Juan M.

AU - Rannou, Pascal

AU - Rodriguez, Sébastien

AU - Teanby, Nicholas A.

AU - Turtle, Elizabeth P.

AU - Achterberg, Richard K.

AU - Alvarez, Carlos

AU - Davies, Ashley G.

AU - de Kleer, Katherine

AU - Doppmann, Greg

AU - Fletcher, Leigh N.

AU - Hayes, Alexander G.

AU - Holler, Bryan J.

AU - Irwin, Patrick G.J.

AU - Jordan, Carolyn

AU - King, Oliver R.T.

AU - Kutsop, Nicholas W.

AU - Marlin, Theresa C.

AU - Melin, Henrik

AU - Milam, Stefanie N.

AU - Molter, Edward M.

AU - Moore, Luke

AU - Nyffenegger-Péré, Yaniss

AU - O’Donoghue, James

AU - O’Meara, John

AU - Rafkin, Scot C.R.

AU - Roman, Michael T.

AU - Rostopchina, Arina

AU - Rowe-Gurney, Naomi

AU - Schmidt, Carl

AU - Schmidt, Judy

AU - Sotin, Christophe

AU - Stallard, Tom S.

AU - Stansberry, John A.

AU - West, Robert A.

PY - 2025/5/14

Y1 - 2025/5/14

N2 - Saturn’s moon Titan undergoes a long annual cycle of 29.45 Earth years. Titan’s northern winter and spring were investigated in detail by the Cassini–Huygens spacecraft (2004–2017), but the northern summer season remains sparsely studied. Here we present new observations from the James Webb Space Telescope (JWST) and Keck II telescope made in 2022 and 2023 during Titan’s late northern summer. Using JWST’s mid-infrared instrument, we spectroscopically detected the methyl radical, the primary product of methane break-up and key to the formation of ethane and heavier molecules. Using the near-infrared spectrograph onboard JWST, we detected several non-local thermodynamic equilibrium CO and CO2 emission bands, which allowed us to measure these species over a wide altitude range. Lastly, using the near-infrared camera onboard JWST and Keck II, we imaged northern hemisphere tropospheric clouds evolving in altitude, which provided new insights and constraints on seasonal convection patterns. These observations pave the way for new observations and modelling of Titan’s climate and meteorology as it progresses through the northern fall equinox, when its atmosphere is expected to show notable seasonal changes.

AB - Saturn’s moon Titan undergoes a long annual cycle of 29.45 Earth years. Titan’s northern winter and spring were investigated in detail by the Cassini–Huygens spacecraft (2004–2017), but the northern summer season remains sparsely studied. Here we present new observations from the James Webb Space Telescope (JWST) and Keck II telescope made in 2022 and 2023 during Titan’s late northern summer. Using JWST’s mid-infrared instrument, we spectroscopically detected the methyl radical, the primary product of methane break-up and key to the formation of ethane and heavier molecules. Using the near-infrared spectrograph onboard JWST, we detected several non-local thermodynamic equilibrium CO and CO2 emission bands, which allowed us to measure these species over a wide altitude range. Lastly, using the near-infrared camera onboard JWST and Keck II, we imaged northern hemisphere tropospheric clouds evolving in altitude, which provided new insights and constraints on seasonal convection patterns. These observations pave the way for new observations and modelling of Titan’s climate and meteorology as it progresses through the northern fall equinox, when its atmosphere is expected to show notable seasonal changes.

UR - http://www.scopus.com/inward/record.url?scp=105005091280&partnerID=8YFLogxK

U2 - 10.1038/s41550-025-02537-3

DO - 10.1038/s41550-025-02537-3

M3 - Article

AN - SCOPUS:105005091280

SN - 2397-3366

SP - 1

EP - 21

JO - Nature Astronomy

JF - Nature Astronomy

ER -

The atmosphere of Titan in late northern summer from JWST and Keck observations

Abstract

UN SDGs

Access to Document

Other files and links

Embargoed Document

Cite this