Measuring Emission Lines with JWST MegaScience Medium Bands: A New Window into Dust and Star Formation at Cosmic Noon

Brian Lorenz; Katherine A. Suess; Mariska Kriek; Sedona H. Price; Joel Leja; Erica Nelson; Hakim Atek; Rachel Bezanson; Gabriel Brammer; Sam E. Cutler; Pratika Dayal; Anna de Graaff; Jenny E. Greene; Lukas J. Furtak; Ivo Labbé; Danilo Marchesini; Michael V. Maseda; Tim B. Miller; Abby Mintz; Ikki Mitsuhashi; Richard Pan; Natalia Porraz Barrera; Bingjie Wang; John R. Weaver; Christina C. Williams; Katherine E. Whitaker

doi:10.3847/2041-8213/ade887

Measuring Emission Lines with JWST MegaScience Medium Bands: A New Window into Dust and Star Formation at Cosmic Noon

Brian Lorenz, Katherine A. Suess, Mariska Kriek, Sedona H. Price, Joel Leja, Erica Nelson, Hakim Atek, Rachel Bezanson, Gabriel Brammer, Sam E. Cutler, Pratika Dayal, Anna de Graaff, Jenny E. Greene, Lukas J. Furtak, Ivo Labbé, Danilo Marchesini, Michael V. Maseda, Tim B. Miller, Abby Mintz, Ikki MitsuhashiRichard Pan, Natalia Porraz Barrera, Bingjie Wang, John R. Weaver, Christina C. Williams, Katherine E. Whitaker

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Abstract

We demonstrate the power of JWST-NIRCam medium-band photometry to measure emission line fluxes and study the dust and star formation properties of galaxies at cosmic noon. In this work, we present photometric emission line measurements and spatially resolved maps of Hα and Paβ for 14 galaxies at 1.3 ≤ z ≤ 2.4, observed by the MegaScience medium-band survey and the UNCOVER spectroscopic survey. We measure line fluxes directly from medium-band photometry and compare with spectroscopic measurements from UNCOVER. We find reasonable agreement between the photometric and spectroscopic emission line fluxes for both Hα and Paβ, with scatter <0.15 dex down to emission line equivalent widths of 10 Å. We also make a nebular dust measurement from the ratio Paβ/Hα, finding an average nebular attenuation in the V band, A_V, of 1.4 with a standard deviation of 0.8. Our photometric A_V measurements show a slightly larger scatter of 0.5 mag when compared to spectroscopic measurements; however, this scatter may be partially caused by aperture effects. Finally, we produce spatially resolved maps of Hα emission, Paβ emission, and the stellar continuum. We find offsets between Hα and Paβ emission, especially for galaxies with high A_V, indicating dusty substructures. Furthermore, the correlation between Hα and continuum emission decreases with increasing A_V, suggesting that the dustiest objects have clumpy dust and star formation distributions. Our study demonstrates the power of medium-band photometry to directly probe emission line strengths, star formation, and dust attenuation for hundreds of galaxies in UNCOVER and thousands of galaxies in upcoming JWST medium-band surveys.

Original language	English (US)
Article number	L20
Journal	Astrophysical Journal Letters
Volume	988
Issue number	1
DOIs	https://doi.org/10.3847/2041-8213/ade887
State	Published - Jul 20 2025

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/2041-8213/ade887

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Lorenz, B., Suess, K. A., Kriek, M., Price, S. H., Leja, J., Nelson, E., Atek, H., Bezanson, R., Brammer, G., Cutler, S. E., Dayal, P., de Graaff, A., Greene, J. E., Furtak, L. J., Labbé, I., Marchesini, D., Maseda, M. V., Miller, T. B., Mintz, A., ... Whitaker, K. E. (2025). Measuring Emission Lines with JWST MegaScience Medium Bands: A New Window into Dust and Star Formation at Cosmic Noon. Astrophysical Journal Letters, 988(1), Article L20. https://doi.org/10.3847/2041-8213/ade887

@article{17354e7945c342bea51d2c3bccdf8a26,

title = "Measuring Emission Lines with JWST MegaScience Medium Bands: A New Window into Dust and Star Formation at Cosmic Noon",

abstract = "We demonstrate the power of JWST-NIRCam medium-band photometry to measure emission line fluxes and study the dust and star formation properties of galaxies at cosmic noon. In this work, we present photometric emission line measurements and spatially resolved maps of Hα and Paβ for 14 galaxies at 1.3 ≤ z ≤ 2.4, observed by the MegaScience medium-band survey and the UNCOVER spectroscopic survey. We measure line fluxes directly from medium-band photometry and compare with spectroscopic measurements from UNCOVER. We find reasonable agreement between the photometric and spectroscopic emission line fluxes for both Hα and Paβ, with scatter <0.15 dex down to emission line equivalent widths of 10 {\AA}. We also make a nebular dust measurement from the ratio Paβ/Hα, finding an average nebular attenuation in the V band, AV, of 1.4 with a standard deviation of 0.8. Our photometric AV measurements show a slightly larger scatter of 0.5 mag when compared to spectroscopic measurements; however, this scatter may be partially caused by aperture effects. Finally, we produce spatially resolved maps of Hα emission, Paβ emission, and the stellar continuum. We find offsets between Hα and Paβ emission, especially for galaxies with high AV, indicating dusty substructures. Furthermore, the correlation between Hα and continuum emission decreases with increasing AV, suggesting that the dustiest objects have clumpy dust and star formation distributions. Our study demonstrates the power of medium-band photometry to directly probe emission line strengths, star formation, and dust attenuation for hundreds of galaxies in UNCOVER and thousands of galaxies in upcoming JWST medium-band surveys.",

author = "Brian Lorenz and Suess, \{Katherine A.\} and Mariska Kriek and Price, \{Sedona H.\} and Joel Leja and Erica Nelson and Hakim Atek and Rachel Bezanson and Gabriel Brammer and Cutler, \{Sam E.\} and Pratika Dayal and \{de Graaff\}, Anna and Greene, \{Jenny E.\} and Furtak, \{Lukas J.\} and Ivo Labb{\'e} and Danilo Marchesini and Maseda, \{Michael V.\} and Miller, \{Tim B.\} and Abby Mintz and Ikki Mitsuhashi and Richard Pan and \{Porraz Barrera\}, Natalia and Bingjie Wang and Weaver, \{John R.\} and Williams, \{Christina C.\} and Whitaker, \{Katherine E.\}",

note = "Publisher Copyright: {\textcopyright} 2025. The Author(s). Published by the American Astronomical Society.",

year = "2025",

month = jul,

day = "20",

doi = "10.3847/2041-8213/ade887",

language = "English (US)",

volume = "988",

journal = "Astrophysical Journal Letters",

issn = "2041-8205",

publisher = "American Astronomical Society",

number = "1",

}

Lorenz, B, Suess, KA, Kriek, M, Price, SH, Leja, J, Nelson, E, Atek, H, Bezanson, R, Brammer, G, Cutler, SE, Dayal, P, de Graaff, A, Greene, JE, Furtak, LJ, Labbé, I, Marchesini, D, Maseda, MV, Miller, TB, Mintz, A, Mitsuhashi, I, Pan, R, Porraz Barrera, N, Wang, B, Weaver, JR, Williams, CC & Whitaker, KE 2025, 'Measuring Emission Lines with JWST MegaScience Medium Bands: A New Window into Dust and Star Formation at Cosmic Noon', Astrophysical Journal Letters, vol. 988, no. 1, L20. https://doi.org/10.3847/2041-8213/ade887

TY - JOUR

T1 - Measuring Emission Lines with JWST MegaScience Medium Bands

T2 - A New Window into Dust and Star Formation at Cosmic Noon

AU - Lorenz, Brian

AU - Suess, Katherine A.

AU - Kriek, Mariska

AU - Price, Sedona H.

AU - Leja, Joel

AU - Nelson, Erica

AU - Atek, Hakim

AU - Bezanson, Rachel

AU - Brammer, Gabriel

AU - Cutler, Sam E.

AU - Dayal, Pratika

AU - de Graaff, Anna

AU - Greene, Jenny E.

AU - Furtak, Lukas J.

AU - Labbé, Ivo

AU - Marchesini, Danilo

AU - Maseda, Michael V.

AU - Miller, Tim B.

AU - Mintz, Abby

AU - Mitsuhashi, Ikki

AU - Pan, Richard

AU - Porraz Barrera, Natalia

AU - Wang, Bingjie

AU - Weaver, John R.

AU - Williams, Christina C.

AU - Whitaker, Katherine E.

PY - 2025/7/20

Y1 - 2025/7/20

N2 - We demonstrate the power of JWST-NIRCam medium-band photometry to measure emission line fluxes and study the dust and star formation properties of galaxies at cosmic noon. In this work, we present photometric emission line measurements and spatially resolved maps of Hα and Paβ for 14 galaxies at 1.3 ≤ z ≤ 2.4, observed by the MegaScience medium-band survey and the UNCOVER spectroscopic survey. We measure line fluxes directly from medium-band photometry and compare with spectroscopic measurements from UNCOVER. We find reasonable agreement between the photometric and spectroscopic emission line fluxes for both Hα and Paβ, with scatter <0.15 dex down to emission line equivalent widths of 10 Å. We also make a nebular dust measurement from the ratio Paβ/Hα, finding an average nebular attenuation in the V band, AV, of 1.4 with a standard deviation of 0.8. Our photometric AV measurements show a slightly larger scatter of 0.5 mag when compared to spectroscopic measurements; however, this scatter may be partially caused by aperture effects. Finally, we produce spatially resolved maps of Hα emission, Paβ emission, and the stellar continuum. We find offsets between Hα and Paβ emission, especially for galaxies with high AV, indicating dusty substructures. Furthermore, the correlation between Hα and continuum emission decreases with increasing AV, suggesting that the dustiest objects have clumpy dust and star formation distributions. Our study demonstrates the power of medium-band photometry to directly probe emission line strengths, star formation, and dust attenuation for hundreds of galaxies in UNCOVER and thousands of galaxies in upcoming JWST medium-band surveys.

AB - We demonstrate the power of JWST-NIRCam medium-band photometry to measure emission line fluxes and study the dust and star formation properties of galaxies at cosmic noon. In this work, we present photometric emission line measurements and spatially resolved maps of Hα and Paβ for 14 galaxies at 1.3 ≤ z ≤ 2.4, observed by the MegaScience medium-band survey and the UNCOVER spectroscopic survey. We measure line fluxes directly from medium-band photometry and compare with spectroscopic measurements from UNCOVER. We find reasonable agreement between the photometric and spectroscopic emission line fluxes for both Hα and Paβ, with scatter <0.15 dex down to emission line equivalent widths of 10 Å. We also make a nebular dust measurement from the ratio Paβ/Hα, finding an average nebular attenuation in the V band, AV, of 1.4 with a standard deviation of 0.8. Our photometric AV measurements show a slightly larger scatter of 0.5 mag when compared to spectroscopic measurements; however, this scatter may be partially caused by aperture effects. Finally, we produce spatially resolved maps of Hα emission, Paβ emission, and the stellar continuum. We find offsets between Hα and Paβ emission, especially for galaxies with high AV, indicating dusty substructures. Furthermore, the correlation between Hα and continuum emission decreases with increasing AV, suggesting that the dustiest objects have clumpy dust and star formation distributions. Our study demonstrates the power of medium-band photometry to directly probe emission line strengths, star formation, and dust attenuation for hundreds of galaxies in UNCOVER and thousands of galaxies in upcoming JWST medium-band surveys.

UR - https://www.scopus.com/pages/publications/105010928726

UR - https://www.scopus.com/inward/citedby.url?scp=105010928726&partnerID=8YFLogxK

U2 - 10.3847/2041-8213/ade887

DO - 10.3847/2041-8213/ade887

M3 - Article

AN - SCOPUS:105010928726

SN - 2041-8205

VL - 988

JO - Astrophysical Journal Letters

JF - Astrophysical Journal Letters

IS - 1

M1 - L20

ER -

Measuring Emission Lines with JWST MegaScience Medium Bands: A New Window into Dust and Star Formation at Cosmic Noon

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