Danyang Jiang, Masafusa Onoue, Linhua Jiang, Samuel Lai, Eduardo Banados, George D. Becker, Manuela Bischetti, Sarah E. I. Bosman, Rebecca L. Davies, Valentina DOdorico, Emanuele Paolo Farina, Martin G. Haehnelt, Chiara Mazzucchelli, Jan-Torge Schindler, Fabian Walter, Yongda Zhu
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The median value of the\nmeasured Fe II/Mg II ratios is ~7.9 with a normalized median absolute deviation\nof ~2.2. In order to trace the cosmic evolution of Fe II/Mg II in an unbiased\nmanner, we select two comparison samples of quasars with similar luminosities\nand high-quality spectra from the literature, one at intermediate redshifts\n(z=3.5-4.8) and the other at low redshifts (z=1.0-2.0). We perform the same\nspectral analysis for all these quasars, including the usage of the same iron\ntemplate, the same spectral fitting method, and the same wavelength fitting\nwindows. We find no significant redshift evolution in the Fe II/Mg II ratio\nover the wide redshift range from z=1 to 6.6. 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引用次数: 0
摘要
类星体光谱中的铁Ⅱ/镁Ⅱ发射线通量比可以代表类星体宽线区中铁元素和α元素的相对丰度。由于预计这两种元素的富集时间尺度不同,它们可以被用作早期宇宙的宇宙时钟。我们利用主要由XQR-30计划和VLTXSHOOTER拍摄的高质量近红外光谱片,对高亮度类星体样本中的铁Ⅱ/镁Ⅱ比率进行了研究。这些类星体的测光光度中值为log(L_bol[ergs^-1])~47.3,红移范围为z=6.0-6.6。主题测量的铁II/镁II比率的中值为~7.9,归一化中值绝对偏差为~2.2。为了无偏地追踪铁Ⅱ/镁Ⅱ的宇宙演化,我们从文献中选择了两个具有相似光度和高质量光谱的类星体对比样本,一个是中红移(z=3.5-4.8),另一个是低红移(z=1.0-2.0)。我们对所有这些类星体进行了相同的光谱分析,包括使用相同的铁模板、相同的光谱拟合方法和相同的波长拟合窗口。我们发现,在 z=1 到 6.6 的宽红移范围内,铁 II/镁 II 比率没有明显的红移演变。这一结果与之前的研究一致,并支持高红移时吸积超大质量黑洞附近铁迅速富集的设想。
No Redshift Evolution in the Fe II/Mg II Flux Ratios of Quasars across Cosmic Time
The Fe II/Mg II emission line flux ratio in quasar spectra serves as a proxy
for the relative Fe to alpha-element abundances in the broad line regions of
quasars. Due to the expected different enrichment timescales of the two
elements, they can be used as a cosmic clock in the early Universe. We present
a study of the Fe II/Mg II ratios in a sample of luminous quasars exploiting
high-quality near-IR spectra taken primarily by the XQR-30 program with VLT
XSHOOTER. These quasars have a median bolometric luminosity of log(L_bol[erg
s^-1])~47.3 and cover a redshift range of z=6.0-6.6. The median value of the
measured Fe II/Mg II ratios is ~7.9 with a normalized median absolute deviation
of ~2.2. In order to trace the cosmic evolution of Fe II/Mg II in an unbiased
manner, we select two comparison samples of quasars with similar luminosities
and high-quality spectra from the literature, one at intermediate redshifts
(z=3.5-4.8) and the other at low redshifts (z=1.0-2.0). We perform the same
spectral analysis for all these quasars, including the usage of the same iron
template, the same spectral fitting method, and the same wavelength fitting
windows. We find no significant redshift evolution in the Fe II/Mg II ratio
over the wide redshift range from z=1 to 6.6. The result is consistent with
previous studies and supports the scenario of a rapid iron enrichment in the
vicinity of accreting supermassive black holes at high redshift.
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