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Main Authors: Wang, Xin, Cheng, Cheng, Ge, Junqiang, Meng, Xiao-Lei, Daddi, Emanuele, Yan, Haojing, Ji, Zhiyuan, Jin, Yifei, Jones, Tucker, Malkan, Matthew A., Haro, Pablo Arrabal, Brammer, Gabriel, Oguri, Masamune, Hou, Meicun, Zhang, Shiwu
Format: Preprint
Published: 2022
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Online Access:https://arxiv.org/abs/2212.04476
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author Wang, Xin
Cheng, Cheng
Ge, Junqiang
Meng, Xiao-Lei
Daddi, Emanuele
Yan, Haojing
Ji, Zhiyuan
Jin, Yifei
Jones, Tucker
Malkan, Matthew A.
Haro, Pablo Arrabal
Brammer, Gabriel
Oguri, Masamune
Hou, Meicun
Zhang, Shiwu
author_facet Wang, Xin
Cheng, Cheng
Ge, Junqiang
Meng, Xiao-Lei
Daddi, Emanuele
Yan, Haojing
Ji, Zhiyuan
Jin, Yifei
Jones, Tucker
Malkan, Matthew A.
Haro, Pablo Arrabal
Brammer, Gabriel
Oguri, Masamune
Hou, Meicun
Zhang, Shiwu
contents Cosmic hydrogen reionization and cosmic production of first metals are major phase transitions of the universe occurring during the first billion years after the Big Bang, however these are still underexplored observationally. Using the JWST NIRSpec prism spectroscopy, we report the discovery of a sub-$L_\ast$ galaxy at $z_{\rm spec}=8.1623\pm0.0007$, dubbed RXJ2129-z8HeII, via the detection of a series of strong rest-frame UV/optical nebular emission lines and the clear Lyman break. RXJ2129-z8HeII shows a pronounced UV continuum with an extremely steep (i.e. blue) spectral slope of $β=-2.53_{-0.07}^{+0.06}$, the steepest amongst all spectroscopically confirmed galaxies at $z_{\rm spec}\gtrsim7$, in support of its very hard ionizing spectrum that could lead to a significant leakage of its ionizing flux. Therefore, RXJ2129-z8HeII is representative of the key galaxy population driving the cosmic reionization. More importantly, we detect a strong He II $λ$1640 emission line in its spectrum, one of the highest redshifts at which such a line is robustly detected. Its high rest-frame equivalent width (${\rm EW}=21\pm4$ Angstrom) and extreme flux ratios with respect to UV metal and Balmer lines raise the possibility that part of RXJ2129-z8HeII's stellar populations could be Pop III-like. Through careful photoionization modeling, we show that the physically calibrated phenomenological models of the ionizing spectra of Pop III stars with strong mass loss can successfully reproduce the emission line flux ratios observed in RXJ2129-z8HeII. Assuming the Eddington limit, the total mass of the Pop III stars within this system is estimated to be $7.8\pm1.4\times10^5 M_\odot$. To date, this galaxy presents the most compelling case in the early universe where trace Pop III stars might coexist with metal-enriched populations.
format Preprint
id arxiv_https___arxiv_org_abs_2212_04476
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle A strong He II $λ$1640 emitter with extremely blue UV spectral slope at $z=8.16$: presence of Pop III stars?
Wang, Xin
Cheng, Cheng
Ge, Junqiang
Meng, Xiao-Lei
Daddi, Emanuele
Yan, Haojing
Ji, Zhiyuan
Jin, Yifei
Jones, Tucker
Malkan, Matthew A.
Haro, Pablo Arrabal
Brammer, Gabriel
Oguri, Masamune
Hou, Meicun
Zhang, Shiwu
Astrophysics of Galaxies
Cosmic hydrogen reionization and cosmic production of first metals are major phase transitions of the universe occurring during the first billion years after the Big Bang, however these are still underexplored observationally. Using the JWST NIRSpec prism spectroscopy, we report the discovery of a sub-$L_\ast$ galaxy at $z_{\rm spec}=8.1623\pm0.0007$, dubbed RXJ2129-z8HeII, via the detection of a series of strong rest-frame UV/optical nebular emission lines and the clear Lyman break. RXJ2129-z8HeII shows a pronounced UV continuum with an extremely steep (i.e. blue) spectral slope of $β=-2.53_{-0.07}^{+0.06}$, the steepest amongst all spectroscopically confirmed galaxies at $z_{\rm spec}\gtrsim7$, in support of its very hard ionizing spectrum that could lead to a significant leakage of its ionizing flux. Therefore, RXJ2129-z8HeII is representative of the key galaxy population driving the cosmic reionization. More importantly, we detect a strong He II $λ$1640 emission line in its spectrum, one of the highest redshifts at which such a line is robustly detected. Its high rest-frame equivalent width (${\rm EW}=21\pm4$ Angstrom) and extreme flux ratios with respect to UV metal and Balmer lines raise the possibility that part of RXJ2129-z8HeII's stellar populations could be Pop III-like. Through careful photoionization modeling, we show that the physically calibrated phenomenological models of the ionizing spectra of Pop III stars with strong mass loss can successfully reproduce the emission line flux ratios observed in RXJ2129-z8HeII. Assuming the Eddington limit, the total mass of the Pop III stars within this system is estimated to be $7.8\pm1.4\times10^5 M_\odot$. To date, this galaxy presents the most compelling case in the early universe where trace Pop III stars might coexist with metal-enriched populations.
title A strong He II $λ$1640 emitter with extremely blue UV spectral slope at $z=8.16$: presence of Pop III stars?
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2212.04476