We report the discovery of an ultra-luminous quasar J030642.51+185315.8
(hereafter J0306+1853) at redshift 5.363, which hosts a super-massive black
hole (SMBH) with $M_BH = (1.07 0.27) \times10^10~M_ødot$. With an
absolute magnitude $M_1450=-28.92$ and bolometric luminosity
$L_bol\sim3.4\times10^14 L_ødot$, J0306+1853 is one of the most luminous
objects in the early Universe. It is not likely to be a beamed source based on
its small flux variability, low radio loudness and normal broad emission lines.
In addition, a $z=4.986$ Damped Ly$\alpha$ system (DLA) with $\rm
M/H=-1.3\pm0.1$, among the most metal rich DLAs at $z 5$, is detected
in the absorption spectrum of this quasar. This ultra-luminous quasar puts
strong constraint on the bright-end of quasar luminosity function and
massive-end of black hole mass function. It will provide a unique laboratory to
the study of BH growth and the co-evolution between BH and host galaxy with
multi-wavelength follow-up observations. The future high resolution spectra
will give more insights to the DLA and other absorption systems along the
line-of-sight of J0306+1853.
Beschreibung
[1506.01765] An ultra-luminous quasar at \lowercase{$z=5.363$} with a ten billion solar mass black hole and a Meta-Rich DLA at \lowercase{$z\sim5$}
%0 Generic
%1 wang2015ultraluminous
%A Wang, Feige
%A Wu, Xue-Bing
%A Fan, Xiaohui
%A Yang, Jinyi
%A Cai, Zheng
%A Yi, Weimin
%A Zuo, Wenwen
%A Wang, Ran
%A McGreer, Ian D.
%A Ho, Luis C.
%A Kim, Minjin
%A Yang, Qian
%A Bian, Fuyan
%A Jiang, Linhua
%D 2015
%K dlas high-z metallicity qso
%T An ultra-luminous quasar at $z=5.363$ with a ten billion
solar mass black hole and a Meta-Rich DLA at $z\sim5$
%U http://arxiv.org/abs/1506.01765
%X We report the discovery of an ultra-luminous quasar J030642.51+185315.8
(hereafter J0306+1853) at redshift 5.363, which hosts a super-massive black
hole (SMBH) with $M_BH = (1.07 0.27) \times10^10~M_ødot$. With an
absolute magnitude $M_1450=-28.92$ and bolometric luminosity
$L_bol\sim3.4\times10^14 L_ødot$, J0306+1853 is one of the most luminous
objects in the early Universe. It is not likely to be a beamed source based on
its small flux variability, low radio loudness and normal broad emission lines.
In addition, a $z=4.986$ Damped Ly$\alpha$ system (DLA) with $\rm
M/H=-1.3\pm0.1$, among the most metal rich DLAs at $z 5$, is detected
in the absorption spectrum of this quasar. This ultra-luminous quasar puts
strong constraint on the bright-end of quasar luminosity function and
massive-end of black hole mass function. It will provide a unique laboratory to
the study of BH growth and the co-evolution between BH and host galaxy with
multi-wavelength follow-up observations. The future high resolution spectra
will give more insights to the DLA and other absorption systems along the
line-of-sight of J0306+1853.
@misc{wang2015ultraluminous,
abstract = {We report the discovery of an ultra-luminous quasar J030642.51+185315.8
(hereafter J0306+1853) at redshift 5.363, which hosts a super-massive black
hole (SMBH) with $M_{BH} = (1.07 \pm 0.27) \times10^{10}~M_\odot$. With an
absolute magnitude $M_{1450}=-28.92$ and bolometric luminosity
$L_{bol}\sim3.4\times10^{14} L_{\odot}$, J0306+1853 is one of the most luminous
objects in the early Universe. It is not likely to be a beamed source based on
its small flux variability, low radio loudness and normal broad emission lines.
In addition, a $z=4.986$ Damped Ly$\alpha$ system (DLA) with $\rm
[M/H]=-1.3\pm0.1$, among the most metal rich DLAs at $z \gtrsim 5$, is detected
in the absorption spectrum of this quasar. This ultra-luminous quasar puts
strong constraint on the bright-end of quasar luminosity function and
massive-end of black hole mass function. It will provide a unique laboratory to
the study of BH growth and the co-evolution between BH and host galaxy with
multi-wavelength follow-up observations. The future high resolution spectra
will give more insights to the DLA and other absorption systems along the
line-of-sight of J0306+1853.},
added-at = {2015-06-08T07:41:05.000+0200},
author = {Wang, Feige and Wu, Xue-Bing and Fan, Xiaohui and Yang, Jinyi and Cai, Zheng and Yi, Weimin and Zuo, Wenwen and Wang, Ran and McGreer, Ian D. and Ho, Luis C. and Kim, Minjin and Yang, Qian and Bian, Fuyan and Jiang, Linhua},
biburl = {https://www.bibsonomy.org/bibtex/2833f2819d1ab2fe92a200b51ee48cbd8/miki},
description = {[1506.01765] An ultra-luminous quasar at \lowercase{$z=5.363$} with a ten billion solar mass black hole and a Meta-Rich DLA at \lowercase{$z\sim5$}},
interhash = {bf73873617535d03bde7f4a3f378ae4e},
intrahash = {833f2819d1ab2fe92a200b51ee48cbd8},
keywords = {dlas high-z metallicity qso},
note = {cite arxiv:1506.01765Comment: 5 pages, 3 figures, accepted for publication in ApJL},
timestamp = {2015-06-08T07:41:05.000+0200},
title = {An ultra-luminous quasar at \lowercase{$z=5.363$} with a ten billion
solar mass black hole and a Meta-Rich DLA at \lowercase{$z\sim5$}},
url = {http://arxiv.org/abs/1506.01765},
year = 2015
}