COSMOS-web : The Overabundance and Physical Nature of “Little Red Dots”—Implications for Early Galaxy and SMBH Assembly

Hollis B. Akins; Caitlin M. Casey; Erini Lambrides; Natalie Allen; Irham T. Andika; Malte Brinch; Jaclyn B. Champagne; Olivia Cooper; Xuheng Ding; Nicole E. Drakos; Andreas Faisst; Steven L. Finkelstein; Maximilien Franco; Seiji Fujimoto; Fabrizio Gentile; Steven Gillman; Ghassem Gozaliasl; Santosh Harish; Christopher C. Hayward; Michaela Hirschmann; Olivier Ilbert; Jeyhan S. Kartaltepe; Dale D. Kocevski; Anton M. Koekemoer; Vasily Kokorev; Daizhong Liu; Arianna S. Long; Henry Joy McCracken; Jed McKinney; Masafusa Onoue; Louise Paquereau; Alvio Renzini; Jason Rhodes; Brant E. Robertson; Marko Shuntov; John D. Silverman; Takumi S. Tanaka; Sune Toft; Benny Trakhtenbrot; Francesco Valentino; Jorge Zavala

doi:10.3847/1538-4357/ade984

COSMOS-web : The Overabundance and Physical Nature of “Little Red Dots”—Implications for Early Galaxy and SMBH Assembly

Hollis B. Akins^*
, Caitlin M. Casey
, Erini Lambrides
, Natalie Allen
, Irham T. Andika
, Malte Brinch
, Jaclyn B. Champagne
, Olivia Cooper
, Xuheng Ding
, Nicole E. Drakos
, Andreas Faisst
, Steven L. Finkelstein
, Maximilien Franco
, Seiji Fujimoto
, Fabrizio Gentile
, Steven Gillman
, Ghassem Gozaliasl
, Santosh Harish
, Christopher C. Hayward
, Michaela Hirschmann

Olivier Ilbert, Jeyhan S. Kartaltepe, Dale D. Kocevski, Anton M. Koekemoer, Vasily Kokorev, Daizhong Liu, Arianna S. Long, Henry Joy McCracken, Jed McKinney, Masafusa Onoue, Louise Paquereau, Alvio Renzini, Jason Rhodes, Brant E. Robertson, Marko Shuntov, John D. Silverman, Takumi S. Tanaka, Sune Toft, Benny Trakhtenbrot, Francesco Valentino, Jorge Zavala

^*Corresponding author for this work

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

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Abstract

JWST has revealed a population of compact and extremely red galaxies at z ≳ 4, which likely host active galactic nuclei (AGNs). We present a sample of 434 “little red dots” (LRDs), selected from the 0.54 deg² COSMOS-Web survey. We fit galaxy and AGN spectral energy distribution models to derive redshifts and physical properties; the sample spans z ∼ 5-9 after removing brown dwarf contaminants. As a thought experiment, we consider two extreme physical scenarios: either LRDs are all AGNs, and their continuum emission is dominated by the accretion disk, or they are all compact star-forming galaxies, and their continuum is dominated by stars. If LRDs are AGN-dominated, our sample exhibits bolometric luminosities ∼10⁴⁵⁻⁴⁷ erg s⁻¹, spanning the gap between JWST AGNs in the literature and bright, rare quasars. We derive a bolometric luminosity function (LF) ∼ 100 times the (UV-selected) quasar LF, implying a nonevolving black hole accretion density of ∼10⁻⁴M_⊙ yr⁻¹ Mpc⁻³ from z ∼ 2-9. By contrast, if LRDs are dominated by star formation, we derive stellar masses ∼10^8.5−10 M_⊙. MIRI/F770W is key to deriving accurate stellar masses; without it, we derive a mass function inconsistent with Λ cold dark matter. The median stellar mass profile is broadly consistent with the maximal surface densities seen in the nearby Universe, though the most massive objects exceed this limit, requiring substantial AGN contribution to the continuum. Nevertheless, stacking all available X-ray, mid-IR, far-IR/submillimeter, and radio data yields nondetections. Whether dominated by dusty AGNs or compact star-formation, the high masses/luminosities and remarkable abundance of LRDs implies a dominant mode of early galaxy/SMBH growth.

Original language	English
Article number	37
Pages (from-to)	1-21
Number of pages	21
Journal	Astrophysical Journal
Volume	991
Issue number	1
DOIs	https://doi.org/10.3847/1538-4357/ade984
Publication status	Published - 20 Sept 2025
MoE publication type	A1 Journal article-refereed

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10.3847/1538-4357/ade984

COSMOS-web - The Overabundance and Physical Nature of “Little Red Dots”—Implications for Early Galaxy and SMBH AssemblyFinal published version, 6.52 MBLicence: CC BY

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Akins, H. B., Casey, C. M., Lambrides, E., Allen, N., Andika, I. T., Brinch, M., Champagne, J. B., Cooper, O., Ding, X., Drakos, N. E., Faisst, A., Finkelstein, S. L., Franco, M., Fujimoto, S., Gentile, F., Gillman, S., Gozaliasl, G., Harish, S., Hayward, C. C., ... Zavala, J. (2025). COSMOS-web : The Overabundance and Physical Nature of “Little Red Dots”—Implications for Early Galaxy and SMBH Assembly. Astrophysical Journal, 991(1), 1-21. Article 37. https://doi.org/10.3847/1538-4357/ade984

@article{98b1e550435b45b497ae474140b02cb4,

title = "COSMOS-web : The Overabundance and Physical Nature of “Little Red Dots”—Implications for Early Galaxy and SMBH Assembly",

abstract = "JWST has revealed a population of compact and extremely red galaxies at z ≳ 4, which likely host active galactic nuclei (AGNs). We present a sample of 434 “little red dots” (LRDs), selected from the 0.54 deg2 COSMOS-Web survey. We fit galaxy and AGN spectral energy distribution models to derive redshifts and physical properties; the sample spans z ∼ 5-9 after removing brown dwarf contaminants. As a thought experiment, we consider two extreme physical scenarios: either LRDs are all AGNs, and their continuum emission is dominated by the accretion disk, or they are all compact star-forming galaxies, and their continuum is dominated by stars. If LRDs are AGN-dominated, our sample exhibits bolometric luminosities ∼1045−47 erg s−1, spanning the gap between JWST AGNs in the literature and bright, rare quasars. We derive a bolometric luminosity function (LF) ∼ 100 times the (UV-selected) quasar LF, implying a nonevolving black hole accretion density of ∼10−4M⊙ yr−1 Mpc−3 from z ∼ 2-9. By contrast, if LRDs are dominated by star formation, we derive stellar masses ∼108.5−10 M⊙. MIRI/F770W is key to deriving accurate stellar masses; without it, we derive a mass function inconsistent with Λ cold dark matter. The median stellar mass profile is broadly consistent with the maximal surface densities seen in the nearby Universe, though the most massive objects exceed this limit, requiring substantial AGN contribution to the continuum. Nevertheless, stacking all available X-ray, mid-IR, far-IR/submillimeter, and radio data yields nondetections. Whether dominated by dusty AGNs or compact star-formation, the high masses/luminosities and remarkable abundance of LRDs implies a dominant mode of early galaxy/SMBH growth.",

author = "Akins, \{Hollis B.\} and Casey, \{Caitlin M.\} and Erini Lambrides and Natalie Allen and Andika, \{Irham T.\} and Malte Brinch and Champagne, \{Jaclyn B.\} and Olivia Cooper and Xuheng Ding and Drakos, \{Nicole E.\} and Andreas Faisst and Finkelstein, \{Steven L.\} and Maximilien Franco and Seiji Fujimoto and Fabrizio Gentile and Steven Gillman and Ghassem Gozaliasl and Santosh Harish and Hayward, \{Christopher C.\} and Michaela Hirschmann and Olivier Ilbert and Kartaltepe, \{Jeyhan S.\} and Kocevski, \{Dale D.\} and Koekemoer, \{Anton M.\} and Vasily Kokorev and Daizhong Liu and Long, \{Arianna S.\} and McCracken, \{Henry Joy\} and Jed McKinney and Masafusa Onoue and Louise Paquereau and Alvio Renzini and Jason Rhodes and Robertson, \{Brant E.\} and Marko Shuntov and Silverman, \{John D.\} and Tanaka, \{Takumi S.\} and Sune Toft and Benny Trakhtenbrot and Francesco Valentino and Jorge Zavala",

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

year = "2025",

month = sep,

day = "20",

doi = "10.3847/1538-4357/ade984",

language = "English",

volume = "991",

pages = "1--21",

journal = "Astrophysical Journal",

issn = "0004-637X",

publisher = "Institute of Physics Publishing",

number = "1",

}

Akins, HB, Casey, CM, Lambrides, E, Allen, N, Andika, IT, Brinch, M, Champagne, JB, Cooper, O, Ding, X, Drakos, NE, Faisst, A, Finkelstein, SL, Franco, M, Fujimoto, S, Gentile, F, Gillman, S, Gozaliasl, G, Harish, S, Hayward, CC, Hirschmann, M, Ilbert, O, Kartaltepe, JS, Kocevski, DD, Koekemoer, AM, Kokorev, V, Liu, D, Long, AS, McCracken, HJ, McKinney, J, Onoue, M, Paquereau, L, Renzini, A, Rhodes, J, Robertson, BE, Shuntov, M, Silverman, JD, Tanaka, TS, Toft, S, Trakhtenbrot, B, Valentino, F & Zavala, J 2025, 'COSMOS-web : The Overabundance and Physical Nature of “Little Red Dots”—Implications for Early Galaxy and SMBH Assembly', Astrophysical Journal, vol. 991, no. 1, 37, pp. 1-21. https://doi.org/10.3847/1538-4357/ade984

TY - JOUR

T1 - COSMOS-web : The Overabundance and Physical Nature of “Little Red Dots”—Implications for Early Galaxy and SMBH Assembly

AU - Akins, Hollis B.

AU - Casey, Caitlin M.

AU - Lambrides, Erini

AU - Allen, Natalie

AU - Andika, Irham T.

AU - Brinch, Malte

AU - Champagne, Jaclyn B.

AU - Cooper, Olivia

AU - Ding, Xuheng

AU - Drakos, Nicole E.

AU - Faisst, Andreas

AU - Finkelstein, Steven L.

AU - Franco, Maximilien

AU - Fujimoto, Seiji

AU - Gentile, Fabrizio

AU - Gillman, Steven

AU - Gozaliasl, Ghassem

AU - Harish, Santosh

AU - Hayward, Christopher C.

AU - Hirschmann, Michaela

AU - Ilbert, Olivier

AU - Kartaltepe, Jeyhan S.

AU - Kocevski, Dale D.

AU - Koekemoer, Anton M.

AU - Kokorev, Vasily

AU - Liu, Daizhong

AU - Long, Arianna S.

AU - McCracken, Henry Joy

AU - McKinney, Jed

AU - Onoue, Masafusa

AU - Paquereau, Louise

AU - Renzini, Alvio

AU - Rhodes, Jason

AU - Robertson, Brant E.

AU - Shuntov, Marko

AU - Silverman, John D.

AU - Tanaka, Takumi S.

AU - Toft, Sune

AU - Trakhtenbrot, Benny

AU - Valentino, Francesco

AU - Zavala, Jorge

PY - 2025/9/20

Y1 - 2025/9/20

N2 - JWST has revealed a population of compact and extremely red galaxies at z ≳ 4, which likely host active galactic nuclei (AGNs). We present a sample of 434 “little red dots” (LRDs), selected from the 0.54 deg2 COSMOS-Web survey. We fit galaxy and AGN spectral energy distribution models to derive redshifts and physical properties; the sample spans z ∼ 5-9 after removing brown dwarf contaminants. As a thought experiment, we consider two extreme physical scenarios: either LRDs are all AGNs, and their continuum emission is dominated by the accretion disk, or they are all compact star-forming galaxies, and their continuum is dominated by stars. If LRDs are AGN-dominated, our sample exhibits bolometric luminosities ∼1045−47 erg s−1, spanning the gap between JWST AGNs in the literature and bright, rare quasars. We derive a bolometric luminosity function (LF) ∼ 100 times the (UV-selected) quasar LF, implying a nonevolving black hole accretion density of ∼10−4M⊙ yr−1 Mpc−3 from z ∼ 2-9. By contrast, if LRDs are dominated by star formation, we derive stellar masses ∼108.5−10 M⊙. MIRI/F770W is key to deriving accurate stellar masses; without it, we derive a mass function inconsistent with Λ cold dark matter. The median stellar mass profile is broadly consistent with the maximal surface densities seen in the nearby Universe, though the most massive objects exceed this limit, requiring substantial AGN contribution to the continuum. Nevertheless, stacking all available X-ray, mid-IR, far-IR/submillimeter, and radio data yields nondetections. Whether dominated by dusty AGNs or compact star-formation, the high masses/luminosities and remarkable abundance of LRDs implies a dominant mode of early galaxy/SMBH growth.

AB - JWST has revealed a population of compact and extremely red galaxies at z ≳ 4, which likely host active galactic nuclei (AGNs). We present a sample of 434 “little red dots” (LRDs), selected from the 0.54 deg2 COSMOS-Web survey. We fit galaxy and AGN spectral energy distribution models to derive redshifts and physical properties; the sample spans z ∼ 5-9 after removing brown dwarf contaminants. As a thought experiment, we consider two extreme physical scenarios: either LRDs are all AGNs, and their continuum emission is dominated by the accretion disk, or they are all compact star-forming galaxies, and their continuum is dominated by stars. If LRDs are AGN-dominated, our sample exhibits bolometric luminosities ∼1045−47 erg s−1, spanning the gap between JWST AGNs in the literature and bright, rare quasars. We derive a bolometric luminosity function (LF) ∼ 100 times the (UV-selected) quasar LF, implying a nonevolving black hole accretion density of ∼10−4M⊙ yr−1 Mpc−3 from z ∼ 2-9. By contrast, if LRDs are dominated by star formation, we derive stellar masses ∼108.5−10 M⊙. MIRI/F770W is key to deriving accurate stellar masses; without it, we derive a mass function inconsistent with Λ cold dark matter. The median stellar mass profile is broadly consistent with the maximal surface densities seen in the nearby Universe, though the most massive objects exceed this limit, requiring substantial AGN contribution to the continuum. Nevertheless, stacking all available X-ray, mid-IR, far-IR/submillimeter, and radio data yields nondetections. Whether dominated by dusty AGNs or compact star-formation, the high masses/luminosities and remarkable abundance of LRDs implies a dominant mode of early galaxy/SMBH growth.

UR - https://www.scopus.com/pages/publications/105015592148

U2 - 10.3847/1538-4357/ade984

DO - 10.3847/1538-4357/ade984

M3 - Article

AN - SCOPUS:105015592148

SN - 0004-637X

VL - 991

SP - 1

EP - 21

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1

M1 - 37

ER -

COSMOS-web : The Overabundance and Physical Nature of “Little Red Dots”—Implications for Early Galaxy and SMBH Assembly

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