_version_ 1866917107683295232
author de Graaff, Anna
Hviding, Raphael E.
Naidu, Rohan P.
Greene, Jenny E.
Miller, Tim B.
Leja, Joel
Matthee, Jorryt
Brammer, Gabriel
Katz, Harley
Bezanson, Rachel
Boogaard, Leindert A.
Bose, Sownak
Chisholm, John
Cleri, Nikko J.
Dayal, Pratika
Feldmann, Robert
Fudamoto, Yoshinobu
Fujimoto, Seiji
Furtak, Lukas J.
Glazebrook, Karl
Gottumukkala, Rashmi
Heintz, Kasper E.
Kokorev, Vasily
Labbe, Ivo
Maseda, Michael V.
McConachie, Ian
Nanayakkara, Themiya
Nelson, Erica
Nowaczyk, Przemysław
Oesch, Pascal A.
Rix, Hans-Walter
Setton, David J.
Torralba, Alberto
Walter, Fabian
Wang, Bingjie
Weibel, Andrea
van der Wel, Arjen
author_facet de Graaff, Anna
Hviding, Raphael E.
Naidu, Rohan P.
Greene, Jenny E.
Miller, Tim B.
Leja, Joel
Matthee, Jorryt
Brammer, Gabriel
Katz, Harley
Bezanson, Rachel
Boogaard, Leindert A.
Bose, Sownak
Chisholm, John
Cleri, Nikko J.
Dayal, Pratika
Feldmann, Robert
Fudamoto, Yoshinobu
Fujimoto, Seiji
Furtak, Lukas J.
Glazebrook, Karl
Gottumukkala, Rashmi
Heintz, Kasper E.
Kokorev, Vasily
Labbe, Ivo
Maseda, Michael V.
McConachie, Ian
Nanayakkara, Themiya
Nelson, Erica
Nowaczyk, Przemysław
Oesch, Pascal A.
Rix, Hans-Walter
Setton, David J.
Torralba, Alberto
Walter, Fabian
Wang, Bingjie
Weibel, Andrea
van der Wel, Arjen
contents We use the DAWN JWST Archive to construct and characterise a sample of 116 little red dots (LRDs) across 2.3<z<9.3, selecting all sources with v-shaped UV-optical continua from NIRSpec/PRISM spectra and compact morphologies in NIRCam/F444W imaging. We show that LRD continuum spectra are ubiquitously well described by modified blackbodies across ~$0.4-1.0μ$m, with typical T~5000K or $λ_{peak}$~$0.65μ$m across 2 dex in luminosity, and a tail toward T~2000K. LRDs therefore trace a locus in the Hertzsprung-Russell diagram that is directly analogous to stars on the Hayashi track, strongly supporting the picture that LRDs are AGN embedded in thermalised dense gas envelopes in approximate hydrostatic equilibrium. Hotter LRDs with $λ_{peak}<0.65μ$m typically have strong Balmer breaks, redder UV slopes and high optical luminosities; other LRDs show weak or no Balmer breaks, and wide variety in $β_{UV}$ and $L_{5100}$. Crucially, we demonstrate that the UV-optical continuum shapes and luminosities are strongly linked to the $Hα,\ Hβ$, [OIII] and OI line properties. There is a tight linear relation between the H$α$ and optical continuum luminosities, as well as H$α$ and OI$_{8446}$, indicating that Balmer, OI and optical emission must primarily be powered by the same source. The Balmer decrement increases strongly toward higher $L_{Hα}$, $L_{5100}$ and Balmer break strength, providing key evidence for luminosity-dependent effects of collisional (de-)excitation and resonant scattering in the gaseous envelopes. In contrast, we show that [OIII] emission likely originates from star-forming host galaxies, and that its strong correlation with Balmer break strength arises naturally from variation in the AGN-to-host ratio. Our work presents an empirical description of the nature and structure of LRDs, defining a new benchmark for ongoing LRD model developments.
format Preprint
id arxiv_https___arxiv_org_abs_2511_21820
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Little Red Dots host Black Hole Stars: A unified family of gas-reddened AGN revealed by JWST/NIRSpec spectroscopy
de Graaff, Anna
Hviding, Raphael E.
Naidu, Rohan P.
Greene, Jenny E.
Miller, Tim B.
Leja, Joel
Matthee, Jorryt
Brammer, Gabriel
Katz, Harley
Bezanson, Rachel
Boogaard, Leindert A.
Bose, Sownak
Chisholm, John
Cleri, Nikko J.
Dayal, Pratika
Feldmann, Robert
Fudamoto, Yoshinobu
Fujimoto, Seiji
Furtak, Lukas J.
Glazebrook, Karl
Gottumukkala, Rashmi
Heintz, Kasper E.
Kokorev, Vasily
Labbe, Ivo
Maseda, Michael V.
McConachie, Ian
Nanayakkara, Themiya
Nelson, Erica
Nowaczyk, Przemysław
Oesch, Pascal A.
Rix, Hans-Walter
Setton, David J.
Torralba, Alberto
Walter, Fabian
Wang, Bingjie
Weibel, Andrea
van der Wel, Arjen
Astrophysics of Galaxies
We use the DAWN JWST Archive to construct and characterise a sample of 116 little red dots (LRDs) across 2.3<z<9.3, selecting all sources with v-shaped UV-optical continua from NIRSpec/PRISM spectra and compact morphologies in NIRCam/F444W imaging. We show that LRD continuum spectra are ubiquitously well described by modified blackbodies across ~$0.4-1.0μ$m, with typical T~5000K or $λ_{peak}$~$0.65μ$m across 2 dex in luminosity, and a tail toward T~2000K. LRDs therefore trace a locus in the Hertzsprung-Russell diagram that is directly analogous to stars on the Hayashi track, strongly supporting the picture that LRDs are AGN embedded in thermalised dense gas envelopes in approximate hydrostatic equilibrium. Hotter LRDs with $λ_{peak}<0.65μ$m typically have strong Balmer breaks, redder UV slopes and high optical luminosities; other LRDs show weak or no Balmer breaks, and wide variety in $β_{UV}$ and $L_{5100}$. Crucially, we demonstrate that the UV-optical continuum shapes and luminosities are strongly linked to the $Hα,\ Hβ$, [OIII] and OI line properties. There is a tight linear relation between the H$α$ and optical continuum luminosities, as well as H$α$ and OI$_{8446}$, indicating that Balmer, OI and optical emission must primarily be powered by the same source. The Balmer decrement increases strongly toward higher $L_{Hα}$, $L_{5100}$ and Balmer break strength, providing key evidence for luminosity-dependent effects of collisional (de-)excitation and resonant scattering in the gaseous envelopes. In contrast, we show that [OIII] emission likely originates from star-forming host galaxies, and that its strong correlation with Balmer break strength arises naturally from variation in the AGN-to-host ratio. Our work presents an empirical description of the nature and structure of LRDs, defining a new benchmark for ongoing LRD model developments.
title Little Red Dots host Black Hole Stars: A unified family of gas-reddened AGN revealed by JWST/NIRSpec spectroscopy
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2511.21820