A direct black-hole mass measurement in a little red dot at high redshift

Ignas Juodžbalis; Cosimo Marconcini; Francesco D’Eugenio; Roberto Maiolino; Alessandro Marconi; Hannah Übler; Jan Scholtz; Xihan Ji; Gareth C. Jones; Michele Perna; Santiago Arribas; Jake S. Bennett; Volker Bromm; Andrew J. Bunker; Stefano Carniani; Stéphane Charlot; Giovanni Cresci; Pratika Dayal; Eiichi Egami; Andrew Fabian; Kohei Inayoshi; Yuki Isobe; Lucy R. Ivey; Sophie Koudmani; Nicolas Laporte; Boyuan Liu; Jianwei Lyu; Giovanni Mazzolari; Stephanie Monty; Eleonora Parlanti; Pablo G. Pérez-González; Brant Robertson; Raffaella Schneider; Debora Sijacki; Sandro Tacchella; Alessandro Trinca; Rosa Valiante; Marta Volonteri; Joris Witstok; Saiyang Zhang

doi:10.1038/s41586-026-10579-4

A direct black-hole mass measurement in a little red dot at high redshift

Ignas Juodžbalis
, Cosimo Marconcini
, Francesco D’Eugenio
, Roberto Maiolino
, Alessandro Marconi
, Hannah Übler
, Jan Scholtz
, Xihan Ji
, Gareth C. Jones
, Michele Perna
, Santiago Arribas
, Jake S. Bennett
, Volker Bromm
, Andrew J. Bunker
, Stefano Carniani
, Stéphane Charlot
, Giovanni Cresci
, Pratika Dayal
, Eiichi Egami
, Andrew Fabian

Kohei Inayoshi, Yuki Isobe, Lucy R. Ivey, Sophie Koudmani, Nicolas Laporte, Boyuan Liu, Jianwei Lyu, Giovanni Mazzolari, Stephanie Monty, Eleonora Parlanti, Pablo G. Pérez-González, Brant Robertson, Raffaella Schneider, Debora Sijacki, Sandro Tacchella, Alessandro Trinca, Rosa Valiante, Marta Volonteri, Joris Witstok, Saiyang Zhang

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

Abstract

Recent discoveries of faint active galactic nuclei (AGN) at the redshift frontier have revealed a plethora of broad Hα emitters with optically red continua, named little red dots (LRDs)1, which comprise 15–30% of the high-redshift broad-line AGN population2. Owing to their peculiar properties3, 4, 5–6, modelling LRDs with standard AGN scenarios has proven challenging. In particular, the validity of single-epoch virial mass estimates in determining the black-hole masses of LRDs has been called into question, with some models claiming that masses might be overestimated by up to two orders of magnitude7, 8, 9–10. Here we report a direct, dynamical black-hole mass measurement in a strongly lensed LRD at a redshift of 7.04. The combination of lensing with deep spectroscopic data reveals a rotation curve that is inconsistent with a nuclear star cluster, yet can be well explained by Keplerian rotation around a point mass of 50 million solar masses, consistent with virial black-hole mass estimates. The Keplerian rotation leaves little room for any stellar component in a host galaxy, as we conservatively infer MBH/M⁎ > 2 (where MBH is the black-hole mass and M⁎ is the stellar mass). Such a ‘naked’ black hole, together with its near-pristine environment11, indicates that this LRD is a massive black-hole seed caught in its earliest accretion phase.

Original language	English
Pages (from-to)	1017-1021
Number of pages	16
Journal	Nature
Volume	653
Early online date	27 May 2026
DOIs	https://doi.org/10.1038/s41586-026-10579-4
Publication status	Published - 28 May 2026

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Final_versionFinal published version, 2.73 MBLicence: CC BY

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Juodžbalis, I., Marconcini, C., D’Eugenio, F., Maiolino, R., Marconi, A., Übler, H., Scholtz, J., Ji, X., Jones, G. C., Perna, M., Arribas, S., Bennett, J. S., Bromm, V., Bunker, A. J., Carniani, S., Charlot, S., Cresci, G., Dayal, P., Egami, E., ... Zhang, S. (2026). A direct black-hole mass measurement in a little red dot at high redshift. Nature, 653, 1017-1021. https://doi.org/10.1038/s41586-026-10579-4

@article{fb30cdee67ab48ba904d95ac410e9511,

title = "A direct black-hole mass measurement in a little red dot at high redshift",

abstract = "Recent discoveries of faint active galactic nuclei (AGN) at the redshift frontier have revealed a plethora of broad Hα emitters with optically red continua, named little red dots (LRDs)1, which comprise 15–30\% of the high-redshift broad-line AGN population2. Owing to their peculiar properties3, 4, 5–6, modelling LRDs with standard AGN scenarios has proven challenging. In particular, the validity of single-epoch virial mass estimates in determining the black-hole masses of LRDs has been called into question, with some models claiming that masses might be overestimated by up to two orders of magnitude7, 8, 9–10. Here we report a direct, dynamical black-hole mass measurement in a strongly lensed LRD at a redshift of 7.04. The combination of lensing with deep spectroscopic data reveals a rotation curve that is inconsistent with a nuclear star cluster, yet can be well explained by Keplerian rotation around a point mass of 50 million solar masses, consistent with virial black-hole mass estimates. The Keplerian rotation leaves little room for any stellar component in a host galaxy, as we conservatively infer MBH/M⁎ > 2 (where MBH is the black-hole mass and M⁎ is the stellar mass). Such a {\textquoteleft}naked{\textquoteright} black hole, together with its near-pristine environment11, indicates that this LRD is a massive black-hole seed caught in its earliest accretion phase.",

author = "Ignas Juod{\v z}balis and Cosimo Marconcini and Francesco D{\textquoteright}Eugenio and Roberto Maiolino and Alessandro Marconi and Hannah {\"U}bler and Jan Scholtz and Xihan Ji and Jones, \{Gareth C.\} and Michele Perna and Santiago Arribas and Bennett, \{Jake S.\} and Volker Bromm and Bunker, \{Andrew J.\} and Stefano Carniani and St{\'e}phane Charlot and Giovanni Cresci and Pratika Dayal and Eiichi Egami and Andrew Fabian and Kohei Inayoshi and Yuki Isobe and Ivey, \{Lucy R.\} and Sophie Koudmani and Nicolas Laporte and Boyuan Liu and Jianwei Lyu and Giovanni Mazzolari and Stephanie Monty and Eleonora Parlanti and P{\'e}rez-Gonz{\'a}lez, \{Pablo G.\} and Brant Robertson and Raffaella Schneider and Debora Sijacki and Sandro Tacchella and Alessandro Trinca and Rosa Valiante and Marta Volonteri and Joris Witstok and Saiyang Zhang",

note = "{\textcopyright} The Author(s) 2026. Open Access This article is licensed under a Creative Commons Attribution 4.0 International License. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.",

year = "2026",

month = may,

day = "28",

doi = "10.1038/s41586-026-10579-4",

language = "English",

volume = "653",

pages = "1017--1021",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

}

Juodžbalis, I, Marconcini, C, D’Eugenio, F, Maiolino, R, Marconi, A, Übler, H, Scholtz, J, Ji, X, Jones, GC, Perna, M, Arribas, S, Bennett, JS, Bromm, V, Bunker, AJ, Carniani, S, Charlot, S, Cresci, G, Dayal, P, Egami, E, Fabian, A, Inayoshi, K, Isobe, Y, Ivey, LR, Koudmani, S, Laporte, N, Liu, B, Lyu, J, Mazzolari, G, Monty, S, Parlanti, E, Pérez-González, PG, Robertson, B, Schneider, R, Sijacki, D, Tacchella, S, Trinca, A, Valiante, R, Volonteri, M, Witstok, J & Zhang, S 2026, 'A direct black-hole mass measurement in a little red dot at high redshift', Nature, vol. 653, pp. 1017-1021. https://doi.org/10.1038/s41586-026-10579-4

TY - JOUR

T1 - A direct black-hole mass measurement in a little red dot at high redshift

AU - Juodžbalis, Ignas

AU - Marconcini, Cosimo

AU - D’Eugenio, Francesco

AU - Maiolino, Roberto

AU - Marconi, Alessandro

AU - Übler, Hannah

AU - Scholtz, Jan

AU - Ji, Xihan

AU - Jones, Gareth C.

AU - Perna, Michele

AU - Arribas, Santiago

AU - Bennett, Jake S.

AU - Bromm, Volker

AU - Bunker, Andrew J.

AU - Carniani, Stefano

AU - Charlot, Stéphane

AU - Cresci, Giovanni

AU - Dayal, Pratika

AU - Egami, Eiichi

AU - Fabian, Andrew

AU - Inayoshi, Kohei

AU - Isobe, Yuki

AU - Ivey, Lucy R.

AU - Koudmani, Sophie

AU - Laporte, Nicolas

AU - Liu, Boyuan

AU - Lyu, Jianwei

AU - Mazzolari, Giovanni

AU - Monty, Stephanie

AU - Parlanti, Eleonora

AU - Pérez-González, Pablo G.

AU - Robertson, Brant

AU - Schneider, Raffaella

AU - Sijacki, Debora

AU - Tacchella, Sandro

AU - Trinca, Alessandro

AU - Valiante, Rosa

AU - Volonteri, Marta

AU - Witstok, Joris

AU - Zhang, Saiyang

N1 - © The Author(s) 2026. Open Access This article is licensed under a Creative Commons Attribution 4.0 International License. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.

PY - 2026/5/28

Y1 - 2026/5/28

N2 - Recent discoveries of faint active galactic nuclei (AGN) at the redshift frontier have revealed a plethora of broad Hα emitters with optically red continua, named little red dots (LRDs)1, which comprise 15–30% of the high-redshift broad-line AGN population2. Owing to their peculiar properties3, 4, 5–6, modelling LRDs with standard AGN scenarios has proven challenging. In particular, the validity of single-epoch virial mass estimates in determining the black-hole masses of LRDs has been called into question, with some models claiming that masses might be overestimated by up to two orders of magnitude7, 8, 9–10. Here we report a direct, dynamical black-hole mass measurement in a strongly lensed LRD at a redshift of 7.04. The combination of lensing with deep spectroscopic data reveals a rotation curve that is inconsistent with a nuclear star cluster, yet can be well explained by Keplerian rotation around a point mass of 50 million solar masses, consistent with virial black-hole mass estimates. The Keplerian rotation leaves little room for any stellar component in a host galaxy, as we conservatively infer MBH/M⁎ > 2 (where MBH is the black-hole mass and M⁎ is the stellar mass). Such a ‘naked’ black hole, together with its near-pristine environment11, indicates that this LRD is a massive black-hole seed caught in its earliest accretion phase.

AB - Recent discoveries of faint active galactic nuclei (AGN) at the redshift frontier have revealed a plethora of broad Hα emitters with optically red continua, named little red dots (LRDs)1, which comprise 15–30% of the high-redshift broad-line AGN population2. Owing to their peculiar properties3, 4, 5–6, modelling LRDs with standard AGN scenarios has proven challenging. In particular, the validity of single-epoch virial mass estimates in determining the black-hole masses of LRDs has been called into question, with some models claiming that masses might be overestimated by up to two orders of magnitude7, 8, 9–10. Here we report a direct, dynamical black-hole mass measurement in a strongly lensed LRD at a redshift of 7.04. The combination of lensing with deep spectroscopic data reveals a rotation curve that is inconsistent with a nuclear star cluster, yet can be well explained by Keplerian rotation around a point mass of 50 million solar masses, consistent with virial black-hole mass estimates. The Keplerian rotation leaves little room for any stellar component in a host galaxy, as we conservatively infer MBH/M⁎ > 2 (where MBH is the black-hole mass and M⁎ is the stellar mass). Such a ‘naked’ black hole, together with its near-pristine environment11, indicates that this LRD is a massive black-hole seed caught in its earliest accretion phase.

U2 - 10.1038/s41586-026-10579-4

DO - 10.1038/s41586-026-10579-4

M3 - Article

SN - 0028-0836

VL - 653

SP - 1017

EP - 1021

JO - Nature

JF - Nature

ER -

A direct black-hole mass measurement in a little red dot at high redshift

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