A Confirmed Deficit of Hot and Cold Dust Emission in the Most Luminous Little Red Dots

David J. Setton; Jenny E. Greene; Justin S. Spilker; Christina C. Williams; Ivo Labbé; Yilun Ma; Bingjie Wang; Katherine E. Whitaker; Joel Leja; Anna de Graaff; Stacey Alberts; Rachel Bezanson; Leindert A. Boogaard; Gabriel Brammer; Sam E. Cutler; Nikko J. Cleri; Olivia R. Cooper; Pratika Dayal; Seiji Fujimoto; Lukas J. Furtak; Andy D. Goulding; Michaela Hirschmann; Vasily Kokorev; Michael V. Maseda; Ian McConachie; Jorryt Matthee; Tim B. Miller; Rohan P. Naidu; Pascal A. Oesch; Richard Pan; Sedona H. Price; Katherine A. Suess; John R. Weaver; Mengyuan Xiao; Yunchong Zhang; Adi Zitrin

doi:10.3847/2041-8213/ade78b

A Confirmed Deficit of Hot and Cold Dust Emission in the Most Luminous Little Red Dots

David J. Setton
, Jenny E. Greene
, Justin S. Spilker
, Christina C. Williams
, Ivo Labbé
, Yilun Ma
, Bingjie Wang
, Katherine E. Whitaker
, Joel Leja
, Anna de Graaff
, Stacey Alberts
, Rachel Bezanson
, Leindert A. Boogaard
, Gabriel Brammer
, Sam E. Cutler
, Nikko J. Cleri
, Olivia R. Cooper
, Pratika Dayal
, Seiji Fujimoto
, Lukas J. Furtak

Andy D. Goulding, Michaela Hirschmann, Vasily Kokorev, Michael V. Maseda, Ian McConachie, Jorryt Matthee, Tim B. Miller, Rohan P. Naidu, Pascal A. Oesch, Richard Pan, Sedona H. Price, Katherine A. Suess, John R. Weaver, Mengyuan Xiao, Yunchong Zhang, Adi Zitrin

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

2 Scopus citations

Abstract

Luminous broad Hα emission and red rest-optical spectral energy distributions (SEDs) are the hallmark of compact little red dots (LRDs), implying highly attenuated dusty starbursts and/or obscured active galactic nuclei (AGN). However, the lack of observed far-infrared (FIR) emission has proved difficult to reconcile with the implied attenuated luminosity in these models. Here, we utilize deep new Atacama Large Millimeter/submillimeter Array imaging, new and existing JWST/MIRI imaging, and archival Spitzer/Herschel imaging of two of the rest-optically brightest LRDs (z = 3.1 and z = 4.47) to place the strongest constraints on the IR luminosity in LRDs to date. The detections at λ_rest = 1-4 μm imply flat slopes in the rest-IR, ruling out a contribution from hot (T ≳ 500 K) dust. Similarly, FIR nondetections rule out any appreciable cold (T ≲ 75 K) dust component. Assuming energy balance, these observations are inconsistent with the typical FIR dust emission of dusty starbursts and quasar tori, which usually show a mixture of cold and hot dust. Additionally, our [C ii] nondetections rule out typical dusty starbursts. We compute empirical maximum IR SEDs and find that both LRDs must have log ( L IR / L ⊙ ) ≲ 12.2 at the 3σ level. These limits are in tension with the predictions of rest-optical spectrophotometric fits, be they galaxy-only, AGN-only, or composite. It is unlikely that LRDs are highly dust-reddened intrinsically blue sources with a dust temperature distribution that conspires to avoid current observing facilities. Rather, we favor an intrinsically redder LRD SED model that alleviates the need for strong dust attenuation.

Original language	English (US)
Article number	L10
Journal	Astrophysical Journal Letters
Volume	991
Issue number	1
DOIs	https://doi.org/10.3847/2041-8213/ade78b
State	Published - Sep 20 2025

All Science Journal Classification (ASJC) codes

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/2041-8213/ade78b

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Setton, D. J., Greene, J. E., Spilker, J. S., Williams, C. C., Labbé, I., Ma, Y., Wang, B., Whitaker, K. E., Leja, J., de Graaff, A., Alberts, S., Bezanson, R., Boogaard, L. A., Brammer, G., Cutler, S. E., Cleri, N. J., Cooper, O. R., Dayal, P., Fujimoto, S., ... Zitrin, A. (2025). A Confirmed Deficit of Hot and Cold Dust Emission in the Most Luminous Little Red Dots. Astrophysical Journal Letters, 991(1), Article L10. https://doi.org/10.3847/2041-8213/ade78b

@article{a389c599bdbb417a8c12572d68669b57,

title = "A Confirmed Deficit of Hot and Cold Dust Emission in the Most Luminous Little Red Dots",

abstract = "Luminous broad Hα emission and red rest-optical spectral energy distributions (SEDs) are the hallmark of compact little red dots (LRDs), implying highly attenuated dusty starbursts and/or obscured active galactic nuclei (AGN). However, the lack of observed far-infrared (FIR) emission has proved difficult to reconcile with the implied attenuated luminosity in these models. Here, we utilize deep new Atacama Large Millimeter/submillimeter Array imaging, new and existing JWST/MIRI imaging, and archival Spitzer/Herschel imaging of two of the rest-optically brightest LRDs (z = 3.1 and z = 4.47) to place the strongest constraints on the IR luminosity in LRDs to date. The detections at λrest = 1-4 μm imply flat slopes in the rest-IR, ruling out a contribution from hot (T ≳ 500 K) dust. Similarly, FIR nondetections rule out any appreciable cold (T ≲ 75 K) dust component. Assuming energy balance, these observations are inconsistent with the typical FIR dust emission of dusty starbursts and quasar tori, which usually show a mixture of cold and hot dust. Additionally, our [C ii] nondetections rule out typical dusty starbursts. We compute empirical maximum IR SEDs and find that both LRDs must have log ( L IR / L ⊙ ) ≲ 12.2 at the 3σ level. These limits are in tension with the predictions of rest-optical spectrophotometric fits, be they galaxy-only, AGN-only, or composite. It is unlikely that LRDs are highly dust-reddened intrinsically blue sources with a dust temperature distribution that conspires to avoid current observing facilities. Rather, we favor an intrinsically redder LRD SED model that alleviates the need for strong dust attenuation.",

author = "Setton, \{David J.\} and Greene, \{Jenny E.\} and Spilker, \{Justin S.\} and Williams, \{Christina C.\} and Ivo Labb{\'e} and Yilun Ma and Bingjie Wang and Whitaker, \{Katherine E.\} and Joel Leja and \{de Graaff\}, Anna and Stacey Alberts and Rachel Bezanson and Boogaard, \{Leindert A.\} and Gabriel Brammer and Cutler, \{Sam E.\} and Cleri, \{Nikko J.\} and Cooper, \{Olivia R.\} and Pratika Dayal and Seiji Fujimoto and Furtak, \{Lukas J.\} and Goulding, \{Andy D.\} and Michaela Hirschmann and Vasily Kokorev and Maseda, \{Michael V.\} and Ian McConachie and Jorryt Matthee and Miller, \{Tim B.\} and Naidu, \{Rohan P.\} and Oesch, \{Pascal A.\} and Richard Pan and Price, \{Sedona H.\} and Suess, \{Katherine A.\} and Weaver, \{John R.\} and Mengyuan Xiao and Yunchong Zhang and Adi Zitrin",

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

year = "2025",

month = sep,

day = "20",

doi = "10.3847/2041-8213/ade78b",

language = "English (US)",

volume = "991",

journal = "Astrophysical Journal Letters",

issn = "2041-8205",

publisher = "American Astronomical Society",

number = "1",

}

Setton, DJ, Greene, JE, Spilker, JS, Williams, CC, Labbé, I, Ma, Y, Wang, B, Whitaker, KE, Leja, J, de Graaff, A, Alberts, S, Bezanson, R, Boogaard, LA, Brammer, G, Cutler, SE, Cleri, NJ, Cooper, OR, Dayal, P, Fujimoto, S, Furtak, LJ, Goulding, AD, Hirschmann, M, Kokorev, V, Maseda, MV, McConachie, I, Matthee, J, Miller, TB, Naidu, RP, Oesch, PA, Pan, R, Price, SH, Suess, KA, Weaver, JR, Xiao, M, Zhang, Y & Zitrin, A 2025, 'A Confirmed Deficit of Hot and Cold Dust Emission in the Most Luminous Little Red Dots', Astrophysical Journal Letters, vol. 991, no. 1, L10. https://doi.org/10.3847/2041-8213/ade78b

TY - JOUR

T1 - A Confirmed Deficit of Hot and Cold Dust Emission in the Most Luminous Little Red Dots

AU - Setton, David J.

AU - Greene, Jenny E.

AU - Spilker, Justin S.

AU - Williams, Christina C.

AU - Labbé, Ivo

AU - Ma, Yilun

AU - Wang, Bingjie

AU - Whitaker, Katherine E.

AU - Leja, Joel

AU - de Graaff, Anna

AU - Alberts, Stacey

AU - Bezanson, Rachel

AU - Boogaard, Leindert A.

AU - Brammer, Gabriel

AU - Cutler, Sam E.

AU - Cleri, Nikko J.

AU - Cooper, Olivia R.

AU - Dayal, Pratika

AU - Fujimoto, Seiji

AU - Furtak, Lukas J.

AU - Goulding, Andy D.

AU - Hirschmann, Michaela

AU - Kokorev, Vasily

AU - Maseda, Michael V.

AU - McConachie, Ian

AU - Matthee, Jorryt

AU - Miller, Tim B.

AU - Naidu, Rohan P.

AU - Oesch, Pascal A.

AU - Pan, Richard

AU - Price, Sedona H.

AU - Suess, Katherine A.

AU - Weaver, John R.

AU - Xiao, Mengyuan

AU - Zhang, Yunchong

AU - Zitrin, Adi

PY - 2025/9/20

Y1 - 2025/9/20

N2 - Luminous broad Hα emission and red rest-optical spectral energy distributions (SEDs) are the hallmark of compact little red dots (LRDs), implying highly attenuated dusty starbursts and/or obscured active galactic nuclei (AGN). However, the lack of observed far-infrared (FIR) emission has proved difficult to reconcile with the implied attenuated luminosity in these models. Here, we utilize deep new Atacama Large Millimeter/submillimeter Array imaging, new and existing JWST/MIRI imaging, and archival Spitzer/Herschel imaging of two of the rest-optically brightest LRDs (z = 3.1 and z = 4.47) to place the strongest constraints on the IR luminosity in LRDs to date. The detections at λrest = 1-4 μm imply flat slopes in the rest-IR, ruling out a contribution from hot (T ≳ 500 K) dust. Similarly, FIR nondetections rule out any appreciable cold (T ≲ 75 K) dust component. Assuming energy balance, these observations are inconsistent with the typical FIR dust emission of dusty starbursts and quasar tori, which usually show a mixture of cold and hot dust. Additionally, our [C ii] nondetections rule out typical dusty starbursts. We compute empirical maximum IR SEDs and find that both LRDs must have log ( L IR / L ⊙ ) ≲ 12.2 at the 3σ level. These limits are in tension with the predictions of rest-optical spectrophotometric fits, be they galaxy-only, AGN-only, or composite. It is unlikely that LRDs are highly dust-reddened intrinsically blue sources with a dust temperature distribution that conspires to avoid current observing facilities. Rather, we favor an intrinsically redder LRD SED model that alleviates the need for strong dust attenuation.

AB - Luminous broad Hα emission and red rest-optical spectral energy distributions (SEDs) are the hallmark of compact little red dots (LRDs), implying highly attenuated dusty starbursts and/or obscured active galactic nuclei (AGN). However, the lack of observed far-infrared (FIR) emission has proved difficult to reconcile with the implied attenuated luminosity in these models. Here, we utilize deep new Atacama Large Millimeter/submillimeter Array imaging, new and existing JWST/MIRI imaging, and archival Spitzer/Herschel imaging of two of the rest-optically brightest LRDs (z = 3.1 and z = 4.47) to place the strongest constraints on the IR luminosity in LRDs to date. The detections at λrest = 1-4 μm imply flat slopes in the rest-IR, ruling out a contribution from hot (T ≳ 500 K) dust. Similarly, FIR nondetections rule out any appreciable cold (T ≲ 75 K) dust component. Assuming energy balance, these observations are inconsistent with the typical FIR dust emission of dusty starbursts and quasar tori, which usually show a mixture of cold and hot dust. Additionally, our [C ii] nondetections rule out typical dusty starbursts. We compute empirical maximum IR SEDs and find that both LRDs must have log ( L IR / L ⊙ ) ≲ 12.2 at the 3σ level. These limits are in tension with the predictions of rest-optical spectrophotometric fits, be they galaxy-only, AGN-only, or composite. It is unlikely that LRDs are highly dust-reddened intrinsically blue sources with a dust temperature distribution that conspires to avoid current observing facilities. Rather, we favor an intrinsically redder LRD SED model that alleviates the need for strong dust attenuation.

UR - https://www.scopus.com/pages/publications/105015858399

UR - https://www.scopus.com/pages/publications/105015858399#tab=citedBy

U2 - 10.3847/2041-8213/ade78b

DO - 10.3847/2041-8213/ade78b

M3 - Article

AN - SCOPUS:105015858399

SN - 2041-8205

VL - 991

JO - Astrophysical Journal Letters

JF - Astrophysical Journal Letters

IS - 1

M1 - L10

ER -

A Confirmed Deficit of Hot and Cold Dust Emission in the Most Luminous Little Red Dots

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