JWST/NIRCam 4–5 μm Imaging of the Giant Planet AF Lep b

Kyle Franson; William O. Balmer; Brendan P. Bowler; Laurent Pueyo; Yifan Zhou; Emily Rickman; Zhoujian Zhang; Sagnick Mukherjee; Tim D. Pearce; Daniella C. Bardalez Gagliuffi; Lauren I. Biddle; Timothy D. Brandt; Rachel Bowens-Rubin; Justin R. Crepp; James W. Davidson; Jacqueline Faherty; Christian Ginski; Elliott P. Horch; Marvin Morgan; Caroline V. Morley; Marshall D. Perrin; Aniket Sanghi; Maïssa Salama; Christopher A. Theissen; Quang H. Tran; Trevor N. Wolf

doi:10.3847/2041-8213/ad736a

JWST/NIRCam 4–5 μm Imaging of the Giant Planet AF Lep b

Kyle Franson, William O. Balmer, Brendan P. Bowler, Laurent Pueyo, Yifan Zhou, Emily Rickman, Zhoujian Zhang, Sagnick Mukherjee, Tim D. Pearce, Daniella C. Bardalez Gagliuffi, Lauren I. Biddle, Timothy D. Brandt, Rachel Bowens-Rubin, Justin R. Crepp, James W. Davidson, Jacqueline Faherty, Christian Ginski, Elliott P. Horch, Marvin Morgan, Caroline V. MorleyMarshall D. Perrin, Aniket Sanghi, Maïssa Salama, Christopher A. Theissen, Quang H. Tran, Trevor N. Wolf

Physics

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Abstract

With a dynamical mass of 3 M _Jup, the recently discovered giant planet AF Lep b is the lowest-mass imaged planet with a direct mass measurement. Its youth and spectral type near the L/T transition make it a promising target to study the impact of clouds and atmospheric chemistry at low surface gravities. In this work, we present JWST/NIRCam imaging of AF Lep b. Across two epochs, we detect AF Lep b in F444W (4.4 μm) with signal-to-noise ratios of 9.6 and 8.7, respectively. At the planet's separation of 320 mas during the observations, the coronagraphic throughput is ≈7%, demonstrating that NIRCam's excellent sensitivity persists down to small separations. The F444W photometry of AF Lep b affirms the presence of disequilibrium carbon chemistry and enhanced atmospheric metallicity. These observations also place deep limits on wider-separation planets in the system, ruling out 1.1 M _Jup planets beyond 15.6 au (0.″58), 1.1 M _Sat planets beyond 27 au (1″), and 2.8 M _Nep planets beyond 67 au (2.″5). We also present new Keck/NIRC2 imaging of AF Lep b; combining this with the two epochs of F444W photometry and previous Keck photometry provides limits on the long-term 3–5 μm variability of AF Lep b on timescales of months to years. AF Lep b is the closest-separation planet imaged with JWST to date, demonstrating that planets can be recovered well inside the nominal (50% throughput) NIRCam coronagraph inner working angle....

Original language	English
Journal	The Astrophysical Journal
DOIs	https://doi.org/10.3847/2041-8213/ad736a
Publication status	Published - Oct 2024

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10.3847/2041-8213/ad736a

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Franson, K., Balmer, W. O., Bowler, B. P., Pueyo, L., Zhou, Y., Rickman, E., Zhang, Z., Mukherjee, S., Pearce, T. D., Bardalez Gagliuffi, D. C., Biddle, L. I., Brandt, T. D., Bowens-Rubin, R., Crepp, J. R., Davidson, J. W., Faherty, J., Ginski, C., Horch, E. P., Morgan, M., ... Wolf, T. N. (2024). JWST/NIRCam 4–5 μm Imaging of the Giant Planet AF Lep b. The Astrophysical Journal. https://doi.org/10.3847/2041-8213/ad736a

@article{be65c8cbffe945319db30044215951b2,

title = "JWST/NIRCam 4–5 μm Imaging of the Giant Planet AF Lep b",

abstract = "With a dynamical mass of 3 M Jup, the recently discovered giant planet AF Lep b is the lowest-mass imaged planet with a direct mass measurement. Its youth and spectral type near the L/T transition make it a promising target to study the impact of clouds and atmospheric chemistry at low surface gravities. In this work, we present JWST/NIRCam imaging of AF Lep b. Across two epochs, we detect AF Lep b in F444W (4.4 μm) with signal-to-noise ratios of 9.6 and 8.7, respectively. At the planet's separation of 320 mas during the observations, the coronagraphic throughput is ≈7%, demonstrating that NIRCam's excellent sensitivity persists down to small separations. The F444W photometry of AF Lep b affirms the presence of disequilibrium carbon chemistry and enhanced atmospheric metallicity. These observations also place deep limits on wider-separation planets in the system, ruling out 1.1 M Jup planets beyond 15.6 au (0.″58), 1.1 M Sat planets beyond 27 au (1″), and 2.8 M Nep planets beyond 67 au (2.″5). We also present new Keck/NIRC2 imaging of AF Lep b; combining this with the two epochs of F444W photometry and previous Keck photometry provides limits on the long-term 3–5 μm variability of AF Lep b on timescales of months to years. AF Lep b is the closest-separation planet imaged with JWST to date, demonstrating that planets can be recovered well inside the nominal (50% throughput) NIRCam coronagraph inner working angle....",

author = "Kyle Franson and Balmer, {William O.} and Bowler, {Brendan P.} and Laurent Pueyo and Yifan Zhou and Emily Rickman and Zhoujian Zhang and Sagnick Mukherjee and Pearce, {Tim D.} and {Bardalez Gagliuffi}, {Daniella C.} and Biddle, {Lauren I.} and Brandt, {Timothy D.} and Rachel Bowens-Rubin and Crepp, {Justin R.} and Davidson, {James W.} and Jacqueline Faherty and Christian Ginski and Horch, {Elliott P.} and Marvin Morgan and Morley, {Caroline V.} and Perrin, {Marshall D.} and Aniket Sanghi and Ma{\"i}ssa Salama and Theissen, {Christopher A.} and Tran, {Quang H.} and Wolf, {Trevor N.}",

year = "2024",

month = oct,

doi = "10.3847/2041-8213/ad736a",

language = "English",

journal = "The Astrophysical Journal",

}

Franson, K, Balmer, WO, Bowler, BP, Pueyo, L, Zhou, Y, Rickman, E, Zhang, Z, Mukherjee, S, Pearce, TD, Bardalez Gagliuffi, DC, Biddle, LI, Brandt, TD, Bowens-Rubin, R, Crepp, JR, Davidson, JW, Faherty, J, Ginski, C, Horch, EP, Morgan, M, Morley, CV, Perrin, MD, Sanghi, A, Salama, M, Theissen, CA, Tran, QH & Wolf, TN 2024, 'JWST/NIRCam 4–5 μm Imaging of the Giant Planet AF Lep b', The Astrophysical Journal. https://doi.org/10.3847/2041-8213/ad736a

TY - JOUR

T1 - JWST/NIRCam 4–5 μm Imaging of the Giant Planet AF Lep b

AU - Franson, Kyle

AU - Balmer, William O.

AU - Bowler, Brendan P.

AU - Pueyo, Laurent

AU - Zhou, Yifan

AU - Rickman, Emily

AU - Zhang, Zhoujian

AU - Mukherjee, Sagnick

AU - Pearce, Tim D.

AU - Bardalez Gagliuffi, Daniella C.

AU - Biddle, Lauren I.

AU - Brandt, Timothy D.

AU - Bowens-Rubin, Rachel

AU - Crepp, Justin R.

AU - Davidson, James W.

AU - Faherty, Jacqueline

AU - Ginski, Christian

AU - Horch, Elliott P.

AU - Morgan, Marvin

AU - Morley, Caroline V.

AU - Perrin, Marshall D.

AU - Sanghi, Aniket

AU - Salama, Maïssa

AU - Theissen, Christopher A.

AU - Tran, Quang H.

AU - Wolf, Trevor N.

PY - 2024/10

Y1 - 2024/10

N2 - With a dynamical mass of 3 M Jup, the recently discovered giant planet AF Lep b is the lowest-mass imaged planet with a direct mass measurement. Its youth and spectral type near the L/T transition make it a promising target to study the impact of clouds and atmospheric chemistry at low surface gravities. In this work, we present JWST/NIRCam imaging of AF Lep b. Across two epochs, we detect AF Lep b in F444W (4.4 μm) with signal-to-noise ratios of 9.6 and 8.7, respectively. At the planet's separation of 320 mas during the observations, the coronagraphic throughput is ≈7%, demonstrating that NIRCam's excellent sensitivity persists down to small separations. The F444W photometry of AF Lep b affirms the presence of disequilibrium carbon chemistry and enhanced atmospheric metallicity. These observations also place deep limits on wider-separation planets in the system, ruling out 1.1 M Jup planets beyond 15.6 au (0.″58), 1.1 M Sat planets beyond 27 au (1″), and 2.8 M Nep planets beyond 67 au (2.″5). We also present new Keck/NIRC2 imaging of AF Lep b; combining this with the two epochs of F444W photometry and previous Keck photometry provides limits on the long-term 3–5 μm variability of AF Lep b on timescales of months to years. AF Lep b is the closest-separation planet imaged with JWST to date, demonstrating that planets can be recovered well inside the nominal (50% throughput) NIRCam coronagraph inner working angle....

AB - With a dynamical mass of 3 M Jup, the recently discovered giant planet AF Lep b is the lowest-mass imaged planet with a direct mass measurement. Its youth and spectral type near the L/T transition make it a promising target to study the impact of clouds and atmospheric chemistry at low surface gravities. In this work, we present JWST/NIRCam imaging of AF Lep b. Across two epochs, we detect AF Lep b in F444W (4.4 μm) with signal-to-noise ratios of 9.6 and 8.7, respectively. At the planet's separation of 320 mas during the observations, the coronagraphic throughput is ≈7%, demonstrating that NIRCam's excellent sensitivity persists down to small separations. The F444W photometry of AF Lep b affirms the presence of disequilibrium carbon chemistry and enhanced atmospheric metallicity. These observations also place deep limits on wider-separation planets in the system, ruling out 1.1 M Jup planets beyond 15.6 au (0.″58), 1.1 M Sat planets beyond 27 au (1″), and 2.8 M Nep planets beyond 67 au (2.″5). We also present new Keck/NIRC2 imaging of AF Lep b; combining this with the two epochs of F444W photometry and previous Keck photometry provides limits on the long-term 3–5 μm variability of AF Lep b on timescales of months to years. AF Lep b is the closest-separation planet imaged with JWST to date, demonstrating that planets can be recovered well inside the nominal (50% throughput) NIRCam coronagraph inner working angle....

U2 - 10.3847/2041-8213/ad736a

DO - 10.3847/2041-8213/ad736a

M3 - Article

JO - The Astrophysical Journal

JF - The Astrophysical Journal

ER -

JWST/NIRCam 4–5 μm Imaging of the Giant Planet AF Lep b

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