The JWST Early Release Science program for direct observations of exoplanetary systems. VI. Evidence for radially evolving icy grains in the HD 141569A disk via NIRCam coronagraphic imaging

Maxwell A. Millar-Blanchaer; Élodie Choquet; Kellen Lawson; Sebastián Marino; Jens Kammerer; Aarynn L. Carter; Isabel Rebollido; Jarron M. Leisenring; Minjae Kim; Paul Kalas; Karl R. Stapelfeldt; Sasha Hinkley; Mark Booth; Carol A. Grady; Elisabeth C. Matthews; Beth A. Biller; Andrew Skemer; Julien H. Girard; Schuyler G. Wolff; Kimberly Ward-Duong; Michael R. Meyer; Anthony Boccaletti; Eric Pantin; Brenda C. Matthews; Stanimir Metchev; Marshall D. Perrin; Christine H. Chen; Katie Crotts; Olivier Absil; William O. Balmer; Per Calissendorff; Gabriele Cugno; Thayne Currie; Camilla Danielski; Kielan K. W. Hoch; Markus Janson; Elena Manjavacas; Pierre-Olivier Lagage; Ben J. Sutlieff; Shrishmoy Ray; Bin B. Ren; Emily Rickman; Genaro Suárez; Christopher A. Theissen; Taichi Uyama; Andreas Quirrenbach; Jason J. Wang; Niall Whiteford; Mark C. Wyatt; Alice Zurlo; The JWST ERS Collaboration

doi:10.3847/1538-4357/ae0615

The JWST Early Release Science program for direct observations of exoplanetary systems. VI. Evidence for radially evolving icy grains in the HD 141569A disk via NIRCam coronagraphic imaging

Maxwell A. Millar-Blanchaer, Élodie Choquet, Kellen Lawson, Sebastián Marino, Jens Kammerer, Aarynn L. Carter, Isabel Rebollido, Jarron M. Leisenring, Minjae Kim, Paul Kalas, Karl R. Stapelfeldt, Sasha Hinkley, Mark Booth, Carol A. Grady, Elisabeth C. Matthews, Beth A. Biller, Andrew Skemer, Julien H. Girard, Schuyler G. Wolff, Kimberly Ward-DuongMichael R. Meyer, Anthony Boccaletti, Eric Pantin, Brenda C. Matthews, Stanimir Metchev, Marshall D. Perrin, Christine H. Chen, Katie Crotts, Olivier Absil, William O. Balmer, Per Calissendorff, Gabriele Cugno, Thayne Currie, Camilla Danielski, Kielan K. W. Hoch, Markus Janson, Elena Manjavacas, Pierre-Olivier Lagage, Ben J. Sutlieff, Shrishmoy Ray, Bin B. Ren, Emily Rickman, Genaro Suárez, Christopher A. Theissen, Taichi Uyama, Andreas Quirrenbach, Jason J. Wang, Niall Whiteford, Mark C. Wyatt, Alice Zurlo, The JWST ERS Collaboration

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

1 Downloads (Pure)

Abstract

We present JWST NIRCam coronagraphic observations of the HD 141569A circumstellar disk, obtained as part of the JWST Early Release Science program. The observations recover the multi-ringed structure seen in previous shorter-wavelength observations, but at filters centered on the ∼3 μm water ice absorption feature and a complementary continuum region (F300M and F360M, respectively). The observations reveal apparent absorption between the F300M and F360M filters that decreases with radius, with a notable change around 200 au, between the innermost and outermost two rings. These results are consistent whether the data is reduced via deconvolution or through a forward-modeling approach. We demonstrate that these changes suggest a radial decrease in the water ice mass fraction by a factor of ∼3─10 and possibly a change in minimum grain size. We do not detect any point sources within the system and can exclude planetary companions 2 Jupiter masses and greater beyond 1″ radius (∼111 au). These observations and the subsequent analysis illustrate a robust pathway for using JWST/NIRCam to characterize the distribution of water ice in other circumstellar disks. We highlight some of the early lessons learned from this work that we hope will be useful for future circumstellar disk observation planning and analysis.

Original language	English
Article number	199
Pages (from-to)	1-20
Number of pages	20
Journal	The Astrophysical Journal
Volume	994
Issue number	2
DOIs	https://doi.org/10.3847/1538-4357/ae0615
Publication status	Published - Dec 2025
Externally published	Yes

Bibliographical note

© 2025. The Author(s). Published by the American Astronomical Society. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.

Access to Document

10.3847/1538-4357/ae0615Licence: CC BY

Publisher version (open access)Final published version, 10.7 MBLicence: CC BY

Cite this

Millar-Blanchaer, M. A., Choquet, É., Lawson, K., Marino, S., Kammerer, J., Carter, A. L., Rebollido, I., Leisenring, J. M., Kim, M., Kalas, P., Stapelfeldt, K. R., Hinkley, S., Booth, M., Grady, C. A., Matthews, E. C., Biller, B. A., Skemer, A., Girard, J. H., Wolff, S. G., ... The JWST ERS Collaboration (2025). The JWST Early Release Science program for direct observations of exoplanetary systems. VI. Evidence for radially evolving icy grains in the HD 141569A disk via NIRCam coronagraphic imaging. The Astrophysical Journal, 994(2), 1-20. Article 199. https://doi.org/10.3847/1538-4357/ae0615

@article{e755617f103c4efd8c9b7464d9c75745,

title = "The JWST Early Release Science program for direct observations of exoplanetary systems. VI. Evidence for radially evolving icy grains in the HD 141569A disk via NIRCam coronagraphic imaging",

abstract = "We present JWST NIRCam coronagraphic observations of the HD 141569A circumstellar disk, obtained as part of the JWST Early Release Science program. The observations recover the multi-ringed structure seen in previous shorter-wavelength observations, but at filters centered on the ∼3 μm water ice absorption feature and a complementary continuum region (F300M and F360M, respectively). The observations reveal apparent absorption between the F300M and F360M filters that decreases with radius, with a notable change around 200 au, between the innermost and outermost two rings. These results are consistent whether the data is reduced via deconvolution or through a forward-modeling approach. We demonstrate that these changes suggest a radial decrease in the water ice mass fraction by a factor of ∼3─10 and possibly a change in minimum grain size. We do not detect any point sources within the system and can exclude planetary companions 2 Jupiter masses and greater beyond 1″ radius (∼111 au). These observations and the subsequent analysis illustrate a robust pathway for using JWST/NIRCam to characterize the distribution of water ice in other circumstellar disks. We highlight some of the early lessons learned from this work that we hope will be useful for future circumstellar disk observation planning and analysis.",

author = "Millar-Blanchaer, \{Maxwell A.\} and {\'E}lodie Choquet and Kellen Lawson and Sebasti{\'a}n Marino and Jens Kammerer and Carter, \{Aarynn L.\} and Isabel Rebollido and Leisenring, \{Jarron M.\} and Minjae Kim and Paul Kalas and Stapelfeldt, \{Karl R.\} and Sasha Hinkley and Mark Booth and Grady, \{Carol A.\} and Matthews, \{Elisabeth C.\} and Biller, \{Beth A.\} and Andrew Skemer and Girard, \{Julien H.\} and Wolff, \{Schuyler G.\} and Kimberly Ward-Duong and Meyer, \{Michael R.\} and Anthony Boccaletti and Eric Pantin and Matthews, \{Brenda C.\} and Stanimir Metchev and Perrin, \{Marshall D.\} and Chen, \{Christine H.\} and Katie Crotts and Olivier Absil and Balmer, \{William O.\} and Per Calissendorff and Gabriele Cugno and Thayne Currie and Camilla Danielski and Hoch, \{Kielan K. W.\} and Markus Janson and Elena Manjavacas and Pierre-Olivier Lagage and Sutlieff, \{Ben J.\} and Shrishmoy Ray and Ren, \{Bin B.\} and Emily Rickman and Genaro Su{\'a}rez and Theissen, \{Christopher A.\} and Taichi Uyama and Andreas Quirrenbach and Wang, \{Jason J.\} and Niall Whiteford and Wyatt, \{Mark C.\} and Alice Zurlo and \{The JWST ERS Collaboration\}",

note = "{\textcopyright} 2025. The Author(s). Published by the American Astronomical Society. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.",

year = "2025",

month = dec,

doi = "10.3847/1538-4357/ae0615",

language = "English",

volume = "994",

pages = "1--20",

journal = "The Astrophysical Journal",

number = "2",

}

Millar-Blanchaer, MA, Choquet, É, Lawson, K, Marino, S, Kammerer, J, Carter, AL, Rebollido, I, Leisenring, JM, Kim, M, Kalas, P, Stapelfeldt, KR, Hinkley, S, Booth, M, Grady, CA, Matthews, EC, Biller, BA, Skemer, A, Girard, JH, Wolff, SG, Ward-Duong, K, Meyer, MR, Boccaletti, A, Pantin, E, Matthews, BC, Metchev, S, Perrin, MD, Chen, CH, Crotts, K, Absil, O, Balmer, WO, Calissendorff, P, Cugno, G, Currie, T, Danielski, C, Hoch, KKW, Janson, M, Manjavacas, E, Lagage, P-O, Sutlieff, BJ, Ray, S, Ren, BB, Rickman, E, Suárez, G, Theissen, CA, Uyama, T, Quirrenbach, A, Wang, JJ, Whiteford, N, Wyatt, MC, Zurlo, A & The JWST ERS Collaboration 2025, 'The JWST Early Release Science program for direct observations of exoplanetary systems. VI. Evidence for radially evolving icy grains in the HD 141569A disk via NIRCam coronagraphic imaging', The Astrophysical Journal, vol. 994, no. 2, 199, pp. 1-20. https://doi.org/10.3847/1538-4357/ae0615

The JWST Early Release Science program for direct observations of exoplanetary systems. VI. Evidence for radially evolving icy grains in the HD 141569A disk via NIRCam coronagraphic imaging. / Millar-Blanchaer, Maxwell A.; Choquet, Élodie; Lawson, Kellen et al.
In: The Astrophysical Journal, Vol. 994, No. 2, 199, 12.2025, p. 1-20.

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

TY - JOUR

T1 - The JWST Early Release Science program for direct observations of exoplanetary systems. VI. Evidence for radially evolving icy grains in the HD 141569A disk via NIRCam coronagraphic imaging

AU - Millar-Blanchaer, Maxwell A.

AU - Choquet, Élodie

AU - Lawson, Kellen

AU - Marino, Sebastián

AU - Kammerer, Jens

AU - Carter, Aarynn L.

AU - Rebollido, Isabel

AU - Leisenring, Jarron M.

AU - Kim, Minjae

AU - Kalas, Paul

AU - Stapelfeldt, Karl R.

AU - Hinkley, Sasha

AU - Booth, Mark

AU - Grady, Carol A.

AU - Matthews, Elisabeth C.

AU - Biller, Beth A.

AU - Skemer, Andrew

AU - Girard, Julien H.

AU - Wolff, Schuyler G.

AU - Ward-Duong, Kimberly

AU - Meyer, Michael R.

AU - Boccaletti, Anthony

AU - Pantin, Eric

AU - Matthews, Brenda C.

AU - Metchev, Stanimir

AU - Perrin, Marshall D.

AU - Chen, Christine H.

AU - Crotts, Katie

AU - Absil, Olivier

AU - Balmer, William O.

AU - Calissendorff, Per

AU - Cugno, Gabriele

AU - Currie, Thayne

AU - Danielski, Camilla

AU - Hoch, Kielan K. W.

AU - Janson, Markus

AU - Manjavacas, Elena

AU - Lagage, Pierre-Olivier

AU - Sutlieff, Ben J.

AU - Ray, Shrishmoy

AU - Ren, Bin B.

AU - Rickman, Emily

AU - Suárez, Genaro

AU - Theissen, Christopher A.

AU - Uyama, Taichi

AU - Quirrenbach, Andreas

AU - Wang, Jason J.

AU - Whiteford, Niall

AU - Wyatt, Mark C.

AU - Zurlo, Alice

AU - The JWST ERS Collaboration

N1 - © 2025. The Author(s). Published by the American Astronomical Society. Version archived for private and non-commercial use with the permission of the author/s and according to publisher conditions. For further rights please contact the publisher.

PY - 2025/12

Y1 - 2025/12

N2 - We present JWST NIRCam coronagraphic observations of the HD 141569A circumstellar disk, obtained as part of the JWST Early Release Science program. The observations recover the multi-ringed structure seen in previous shorter-wavelength observations, but at filters centered on the ∼3 μm water ice absorption feature and a complementary continuum region (F300M and F360M, respectively). The observations reveal apparent absorption between the F300M and F360M filters that decreases with radius, with a notable change around 200 au, between the innermost and outermost two rings. These results are consistent whether the data is reduced via deconvolution or through a forward-modeling approach. We demonstrate that these changes suggest a radial decrease in the water ice mass fraction by a factor of ∼3─10 and possibly a change in minimum grain size. We do not detect any point sources within the system and can exclude planetary companions 2 Jupiter masses and greater beyond 1″ radius (∼111 au). These observations and the subsequent analysis illustrate a robust pathway for using JWST/NIRCam to characterize the distribution of water ice in other circumstellar disks. We highlight some of the early lessons learned from this work that we hope will be useful for future circumstellar disk observation planning and analysis.

AB - We present JWST NIRCam coronagraphic observations of the HD 141569A circumstellar disk, obtained as part of the JWST Early Release Science program. The observations recover the multi-ringed structure seen in previous shorter-wavelength observations, but at filters centered on the ∼3 μm water ice absorption feature and a complementary continuum region (F300M and F360M, respectively). The observations reveal apparent absorption between the F300M and F360M filters that decreases with radius, with a notable change around 200 au, between the innermost and outermost two rings. These results are consistent whether the data is reduced via deconvolution or through a forward-modeling approach. We demonstrate that these changes suggest a radial decrease in the water ice mass fraction by a factor of ∼3─10 and possibly a change in minimum grain size. We do not detect any point sources within the system and can exclude planetary companions 2 Jupiter masses and greater beyond 1″ radius (∼111 au). These observations and the subsequent analysis illustrate a robust pathway for using JWST/NIRCam to characterize the distribution of water ice in other circumstellar disks. We highlight some of the early lessons learned from this work that we hope will be useful for future circumstellar disk observation planning and analysis.

U2 - 10.3847/1538-4357/ae0615

DO - 10.3847/1538-4357/ae0615

M3 - Article

VL - 994

SP - 1

EP - 20

JO - The Astrophysical Journal

JF - The Astrophysical Journal

IS - 2

M1 - 199

ER -

The JWST Early Release Science program for direct observations of exoplanetary systems. VI. Evidence for radially evolving icy grains in the HD 141569A disk via NIRCam coronagraphic imaging

Abstract

Bibliographical note

Access to Document

Fingerprint

Cite this