The warm outer layer of a little red dot as the source of [Fe ii] and collisional Balmer lines with scattering wings

Alberto Torralba; Jorryt Matthee; Gabriele Pezzulli; Rohan P. Naidu; Yuzo Ishikawa; Gabriel B. Brammer; Seok Jun Chang; John Chisholm; Anna de Graaff; Francesco D’Eugenio; Claudia Di Cesare; Anna Christina Eilers; Jenny E. Greene; Max Gronke; Edoardo Iani; Vasily Kokorev; Gauri Kotiwale; Ivan Kramarenko; Yilun Ma; Sara Mascia; Benjamín Navarrete; Erica Nelson; Pascal Oesch; Robert A. Simcoe; Stijn Wuyts

doi:10.1051/0004-6361/202557537

The warm outer layer of a little red dot as the source of [Fe ii] and collisional Balmer lines with scattering wings

Alberto Torralba, Jorryt Matthee, Gabriele Pezzulli, Rohan P. Naidu, Yuzo Ishikawa, Gabriel B. Brammer, Seok Jun Chang, John Chisholm, Anna de Graaff, Francesco D’Eugenio, Claudia Di Cesare, Anna Christina Eilers, Jenny E. Greene, Max Gronke, Edoardo Iani, Vasily Kokorev, Gauri Kotiwale, Ivan Kramarenko, Yilun Ma, Sara MasciaBenjamín Navarrete, Erica Nelson, Pascal Oesch, Robert A. Simcoe, Stijn Wuyts

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Abstract

The population of the little red dots (LRDs) may represent a key phase of supermassive black hole (SMBH) growth. A cocoon of dense excited gas is emerging as a key component to explain the most striking properties of LRDs, such as strong Balmer breaks and Balmer absorption, as well as the weak IR emission. To dissect the structure of LRDs, we analyzed new deep JWST/NIRSpec PRISM and G395H spectra of FRESCO-GN-9771, one of the most luminous known LRDs at z = 5.5. These spectra reveal a strong Balmer break, broad Balmer lines, and very narrow [O iii] emission. We revealed a forest of optical [Fe ii] lines, which we argue are emerging from a dense (n_H = 10⁹⁻¹⁰ cm⁻³) warm layer with electron temperature T_e ≈ 7000 K. The broad wings of Hα and Hβ have an exponential profile due to electron scattering in this same layer. The high Hα:Hβ:Hγ flux ratio of ≈10.4:1:0.14 is an indicator of collisional excitation and resonant scattering dominating the Balmer line emission. A narrow Hγ component, unseen in the other two Balmer lines due to outshining by the broad components, could trace the ISM of a normal host galaxy with a star formation rate of ∼5 M yr⁻¹. The warm layer is mostly opaque to Balmer transitions, producing a characteristic P Cygni profile in the line centers suggesting outflowing motions. This same layer is responsible for shaping the Balmer break. The broadband spectrum can be reasonably matched by a simple photoionized slab model that dominates the λ > 1500 Å continuum and a low-mass (∼10⁸ M) galaxy that could explain the narrow [O iii], with only a subdominant contribution to the UV continuum. Our findings indicate that Balmer lines are not directly tracing the gas kinematics near the SMBH and that the BH mass scale is likely much lower than virial indicators suggest.

Original language	English
Article number	A75
Journal	Astronomy and Astrophysics
Volume	707
Early online date	27 Feb 2026
DOIs	https://doi.org/10.1051/0004-6361/202557537
Publication status	Published - 31 Mar 2026

Funding

We thank the scientific referee for useful and constructive comments. We thank Ylva Götberg and Zoltan Haiman for insightful discussions about the physics of gaseous envelopes and accretion into black holes. Funded by the European Union (ERC, AGENTS, 101076224). Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union or the European Research Council. Neither the European Union nor the granting authority can be held responsible for them. This work is based in part on observations made with the NASA/ESA/CSA James Webb Space Telescope. The data were obtained from the Mikulski Archive for Space Telescopes at the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., under NASA contract NAS 5-03127 for JWST. These observations are associated with program #5664. This work has received funding from the Swiss State Secretariat for Education, Research and Innovation (SERI) under contract number MB22.00072, as well as from the Swiss National Science Foundation (SNSF) through project grant 200020_207349.

Keywords

galaxies: active
galaxies: high-redshift
galaxies: nuclei
quasars: supermassive black holes

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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Torralba2026_arXivAccepted author manuscript, 2.41 MB

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Torralba, A., Matthee, J., Pezzulli, G., Naidu, R. P., Ishikawa, Y., Brammer, G. B., Chang, S. J., Chisholm, J., de Graaff, A., D’Eugenio, F., Di Cesare, C., Eilers, A. C., Greene, J. E., Gronke, M., Iani, E., Kokorev, V., Kotiwale, G., Kramarenko, I., Ma, Y., ... Wuyts, S. (2026). The warm outer layer of a little red dot as the source of [Fe ii] and collisional Balmer lines with scattering wings. Astronomy and Astrophysics, 707, Article A75. https://doi.org/10.1051/0004-6361/202557537

Torralba, A, Matthee, J, Pezzulli, G, Naidu, RP, Ishikawa, Y, Brammer, GB, Chang, SJ, Chisholm, J, de Graaff, A, D’Eugenio, F, Di Cesare, C, Eilers, AC, Greene, JE, Gronke, M, Iani, E, Kokorev, V, Kotiwale, G, Kramarenko, I, Ma, Y, Mascia, S, Navarrete, B, Nelson, E, Oesch, P, Simcoe, RA & Wuyts, S 2026, 'The warm outer layer of a little red dot as the source of [Fe ii] and collisional Balmer lines with scattering wings', Astronomy and Astrophysics, vol. 707, A75. https://doi.org/10.1051/0004-6361/202557537

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title = "The warm outer layer of a little red dot as the source of [Fe ii] and collisional Balmer lines with scattering wings",

abstract = "The population of the little red dots (LRDs) may represent a key phase of supermassive black hole (SMBH) growth. A cocoon of dense excited gas is emerging as a key component to explain the most striking properties of LRDs, such as strong Balmer breaks and Balmer absorption, as well as the weak IR emission. To dissect the structure of LRDs, we analyzed new deep JWST/NIRSpec PRISM and G395H spectra of FRESCO-GN-9771, one of the most luminous known LRDs at z = 5.5. These spectra reveal a strong Balmer break, broad Balmer lines, and very narrow [O iii] emission. We revealed a forest of optical [Fe ii] lines, which we argue are emerging from a dense (nH = 109−10 cm−3) warm layer with electron temperature Te ≈ 7000 K. The broad wings of Hα and Hβ have an exponential profile due to electron scattering in this same layer. The high Hα:Hβ:Hγ flux ratio of ≈10.4:1:0.14 is an indicator of collisional excitation and resonant scattering dominating the Balmer line emission. A narrow Hγ component, unseen in the other two Balmer lines due to outshining by the broad components, could trace the ISM of a normal host galaxy with a star formation rate of ∼5 M yr−1. The warm layer is mostly opaque to Balmer transitions, producing a characteristic P Cygni profile in the line centers suggesting outflowing motions. This same layer is responsible for shaping the Balmer break. The broadband spectrum can be reasonably matched by a simple photoionized slab model that dominates the λ > 1500 {\AA} continuum and a low-mass (∼108 M) galaxy that could explain the narrow [O iii], with only a subdominant contribution to the UV continuum. Our findings indicate that Balmer lines are not directly tracing the gas kinematics near the SMBH and that the BH mass scale is likely much lower than virial indicators suggest.",

keywords = "galaxies: active, galaxies: high-redshift, galaxies: nuclei, quasars: supermassive black holes",

author = "Alberto Torralba and Jorryt Matthee and Gabriele Pezzulli and Naidu, \{Rohan P.\} and Yuzo Ishikawa and Brammer, \{Gabriel B.\} and Chang, \{Seok Jun\} and John Chisholm and \{de Graaff\}, Anna and Francesco D{\textquoteright}Eugenio and \{Di Cesare\}, Claudia and Eilers, \{Anna Christina\} and Greene, \{Jenny E.\} and Max Gronke and Edoardo Iani and Vasily Kokorev and Gauri Kotiwale and Ivan Kramarenko and Yilun Ma and Sara Mascia and Benjam{\'i}n Navarrete and Erica Nelson and Pascal Oesch and Simcoe, \{Robert A.\} and Stijn Wuyts",

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doi = "10.1051/0004-6361/202557537",

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T1 - The warm outer layer of a little red dot as the source of [Fe ii] and collisional Balmer lines with scattering wings

AU - Torralba, Alberto

AU - Matthee, Jorryt

AU - Pezzulli, Gabriele

AU - Naidu, Rohan P.

AU - Ishikawa, Yuzo

AU - Brammer, Gabriel B.

AU - Chang, Seok Jun

AU - Chisholm, John

AU - de Graaff, Anna

AU - D’Eugenio, Francesco

AU - Di Cesare, Claudia

AU - Eilers, Anna Christina

AU - Greene, Jenny E.

AU - Gronke, Max

AU - Iani, Edoardo

AU - Kokorev, Vasily

AU - Kotiwale, Gauri

AU - Kramarenko, Ivan

AU - Ma, Yilun

AU - Mascia, Sara

AU - Navarrete, Benjamín

AU - Nelson, Erica

AU - Oesch, Pascal

AU - Simcoe, Robert A.

AU - Wuyts, Stijn

PY - 2026/3/31

Y1 - 2026/3/31

N2 - The population of the little red dots (LRDs) may represent a key phase of supermassive black hole (SMBH) growth. A cocoon of dense excited gas is emerging as a key component to explain the most striking properties of LRDs, such as strong Balmer breaks and Balmer absorption, as well as the weak IR emission. To dissect the structure of LRDs, we analyzed new deep JWST/NIRSpec PRISM and G395H spectra of FRESCO-GN-9771, one of the most luminous known LRDs at z = 5.5. These spectra reveal a strong Balmer break, broad Balmer lines, and very narrow [O iii] emission. We revealed a forest of optical [Fe ii] lines, which we argue are emerging from a dense (nH = 109−10 cm−3) warm layer with electron temperature Te ≈ 7000 K. The broad wings of Hα and Hβ have an exponential profile due to electron scattering in this same layer. The high Hα:Hβ:Hγ flux ratio of ≈10.4:1:0.14 is an indicator of collisional excitation and resonant scattering dominating the Balmer line emission. A narrow Hγ component, unseen in the other two Balmer lines due to outshining by the broad components, could trace the ISM of a normal host galaxy with a star formation rate of ∼5 M yr−1. The warm layer is mostly opaque to Balmer transitions, producing a characteristic P Cygni profile in the line centers suggesting outflowing motions. This same layer is responsible for shaping the Balmer break. The broadband spectrum can be reasonably matched by a simple photoionized slab model that dominates the λ > 1500 Å continuum and a low-mass (∼108 M) galaxy that could explain the narrow [O iii], with only a subdominant contribution to the UV continuum. Our findings indicate that Balmer lines are not directly tracing the gas kinematics near the SMBH and that the BH mass scale is likely much lower than virial indicators suggest.

AB - The population of the little red dots (LRDs) may represent a key phase of supermassive black hole (SMBH) growth. A cocoon of dense excited gas is emerging as a key component to explain the most striking properties of LRDs, such as strong Balmer breaks and Balmer absorption, as well as the weak IR emission. To dissect the structure of LRDs, we analyzed new deep JWST/NIRSpec PRISM and G395H spectra of FRESCO-GN-9771, one of the most luminous known LRDs at z = 5.5. These spectra reveal a strong Balmer break, broad Balmer lines, and very narrow [O iii] emission. We revealed a forest of optical [Fe ii] lines, which we argue are emerging from a dense (nH = 109−10 cm−3) warm layer with electron temperature Te ≈ 7000 K. The broad wings of Hα and Hβ have an exponential profile due to electron scattering in this same layer. The high Hα:Hβ:Hγ flux ratio of ≈10.4:1:0.14 is an indicator of collisional excitation and resonant scattering dominating the Balmer line emission. A narrow Hγ component, unseen in the other two Balmer lines due to outshining by the broad components, could trace the ISM of a normal host galaxy with a star formation rate of ∼5 M yr−1. The warm layer is mostly opaque to Balmer transitions, producing a characteristic P Cygni profile in the line centers suggesting outflowing motions. This same layer is responsible for shaping the Balmer break. The broadband spectrum can be reasonably matched by a simple photoionized slab model that dominates the λ > 1500 Å continuum and a low-mass (∼108 M) galaxy that could explain the narrow [O iii], with only a subdominant contribution to the UV continuum. Our findings indicate that Balmer lines are not directly tracing the gas kinematics near the SMBH and that the BH mass scale is likely much lower than virial indicators suggest.

KW - galaxies: active

KW - galaxies: high-redshift

KW - galaxies: nuclei

KW - quasars: supermassive black holes

UR - https://www.scopus.com/pages/publications/105031907988

U2 - 10.1051/0004-6361/202557537

DO - 10.1051/0004-6361/202557537

M3 - Article

AN - SCOPUS:105031907988

SN - 0004-6361

VL - 707

JO - Astronomy and Astrophysics

JF - Astronomy and Astrophysics

M1 - A75

ER -

The warm outer layer of a little red dot as the source of [Fe ii] and collisional Balmer lines with scattering wings

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