_version_ 1866909891188228096
author Tripodi, Roberta
Bradač, Maruša
D'Eugenio, Francesco
Martis, Nicholas
Rihtaršič, Gregor
Willott, Chris
Pentericci, Laura
Moreschini, Bianca
Markevitch, Maxim
Asada, Yoshihisa
Calabrò, Antonello
Desprez, Guillaume
Felicioni, Giordano
Gaspar, Gaia
Gonzalez, Anthony H.
Harshan, Anishya
Ji, Xihan
Judež, Jon
Lemaux, Brian C.
Marconi, Alessandro
Markov, Vladan
Merida, Rosa M.
Napolitano, Lorenzo
Noirot, Gaël
Parente, Massimiliano
Peter, Annika H. G.
Robbins, Luke
Robertson, Andrew
Sarrouh, Ghassan T. E.
Sawicki, Marcin
author_facet Tripodi, Roberta
Bradač, Maruša
D'Eugenio, Francesco
Martis, Nicholas
Rihtaršič, Gregor
Willott, Chris
Pentericci, Laura
Moreschini, Bianca
Markevitch, Maxim
Asada, Yoshihisa
Calabrò, Antonello
Desprez, Guillaume
Felicioni, Giordano
Gaspar, Gaia
Gonzalez, Anthony H.
Harshan, Anishya
Ji, Xihan
Judež, Jon
Lemaux, Brian C.
Marconi, Alessandro
Markov, Vladan
Merida, Rosa M.
Napolitano, Lorenzo
Noirot, Gaël
Parente, Massimiliano
Peter, Annika H. G.
Robbins, Luke
Robertson, Andrew
Sarrouh, Ghassan T. E.
Sawicki, Marcin
contents We present a spectroscopic analysis of a broad-line active galactic nucleus (AGN) selected as little red dot at $z = 5.3$ behind the Bullet cluster (Bz5.3), based on JWST/NIRCam and NIRSpec data. The detection of strong FeII, OI, and CaII triplet emission lines, along with the evidence of broad Balmer lines, provides strong evidence of a broad-line region (BLR) and an accreting supermassive black hole. Notably, we report the first detection of the $\lambda1304$ bump (i.e., blend of OI$λ$1304 and SiII) at high redshift, a feature commonly seen in local AGNs but not yet reported in the early Universe. The OI$λ$1304/$\lambda8446$ photon ratio provides an independent measurement of dust attenuation in galaxies. In Bz5.3, this ratio is highly suppressed (0.1--0.3), implying significant internal dust extinction, with estimated dust attenuation $A_V \sim 0.4$--$1.0$. We identify Ly$β$ fluorescence as the dominant excitation mechanism of the low-ionization lines, with additional contributions from collisional excitation. High OI$λ$8446 equivalent width and weak OI$λ$7774 support this interpretation. The detection of iron emission, whether from broad permitted or narrow forbidden lines, supports the presence of a stratified BLR, as also recently proposed in local LRDs. Photoionization modeling of OI$λ$8446 and CaII further suggests the coexistence of multiple gas phases with distinct densities and ionization states, highlighting the complexity of the BLR. Bz5.3 thus offers a rare window into early AGN activity and BLR physics at early times.
format Preprint
id arxiv_https___arxiv_org_abs_2507_20684
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A deep dive down the broad-line region: permitted OI, CaII and FeII emission in an AGN Little Red Dot at z=5.3
Tripodi, Roberta
Bradač, Maruša
D'Eugenio, Francesco
Martis, Nicholas
Rihtaršič, Gregor
Willott, Chris
Pentericci, Laura
Moreschini, Bianca
Markevitch, Maxim
Asada, Yoshihisa
Calabrò, Antonello
Desprez, Guillaume
Felicioni, Giordano
Gaspar, Gaia
Gonzalez, Anthony H.
Harshan, Anishya
Ji, Xihan
Judež, Jon
Lemaux, Brian C.
Marconi, Alessandro
Markov, Vladan
Merida, Rosa M.
Napolitano, Lorenzo
Noirot, Gaël
Parente, Massimiliano
Peter, Annika H. G.
Robbins, Luke
Robertson, Andrew
Sarrouh, Ghassan T. E.
Sawicki, Marcin
Astrophysics of Galaxies
We present a spectroscopic analysis of a broad-line active galactic nucleus (AGN) selected as little red dot at $z = 5.3$ behind the Bullet cluster (Bz5.3), based on JWST/NIRCam and NIRSpec data. The detection of strong FeII, OI, and CaII triplet emission lines, along with the evidence of broad Balmer lines, provides strong evidence of a broad-line region (BLR) and an accreting supermassive black hole. Notably, we report the first detection of the $\lambda1304$ bump (i.e., blend of OI$λ$1304 and SiII) at high redshift, a feature commonly seen in local AGNs but not yet reported in the early Universe. The OI$λ$1304/$\lambda8446$ photon ratio provides an independent measurement of dust attenuation in galaxies. In Bz5.3, this ratio is highly suppressed (0.1--0.3), implying significant internal dust extinction, with estimated dust attenuation $A_V \sim 0.4$--$1.0$. We identify Ly$β$ fluorescence as the dominant excitation mechanism of the low-ionization lines, with additional contributions from collisional excitation. High OI$λ$8446 equivalent width and weak OI$λ$7774 support this interpretation. The detection of iron emission, whether from broad permitted or narrow forbidden lines, supports the presence of a stratified BLR, as also recently proposed in local LRDs. Photoionization modeling of OI$λ$8446 and CaII further suggests the coexistence of multiple gas phases with distinct densities and ionization states, highlighting the complexity of the BLR. Bz5.3 thus offers a rare window into early AGN activity and BLR physics at early times.
title A deep dive down the broad-line region: permitted OI, CaII and FeII emission in an AGN Little Red Dot at z=5.3
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2507.20684