大爆炸后超富集气体~ 1 Gyr的发现

The Astrophysical Journal Letters Pub Date : 2023-08-31 DOI:10.3847/2041-8213/aceefe

Jianghao 江豪 Huyan 呼延, V. Kulkarni, Suraj Poudel, N. Tejos, C. Péroux, S. López

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引用次数: 0

摘要

高红移星系的星际和星系周围介质中化学元素的丰度对早期恒星的核合成提供了重要的限制。高红移背景类星体光谱中的阻尼Lyα吸收体(DLAs)是获得遥远星系中元素丰度可靠测量的极佳位置。过去对红移z > 4的dla的研究测得的丰度为≤0.01太阳。在这里，我们报告发现了z = 4.7372的DLA，具有异常高的化学富集程度。我们估计该吸收器中的H柱密度为log (N H i /cm−2)= 20.48±0.15。我们的分析显示出异常高的碳和氧丰度([C/H] = 0.88±0.17，[O/H] = 0.71±0.16)。在大爆炸后仅仅1.2 Gyr的时间里，如此高的富集水平令人惊讶，因为没有足够的时间来形成所需的恒星数量。据我们所知，这是发现的第一个z > 4.5的超级太阳能吸收体。我们发现硅和镁的丰度为[Si/H] =−0.56−0.35+0.40和[Mg/H] = 0.59−0.50+0.27，证实了该吸收剂的富金属性质。相比之下，Fe的丰度要低得多([Fe/H] =−1.53−0.15+0.15)。我们讨论了我们的结果对星系化学演化模型的影响。该吸收剂的金属丰度高于任何其他已知的DLA，并且比化学演化模型的预测和先前研究中在z > 4.5处的N - H加权平均金属丰度高出2个数量级。相对丰度(例如，[O/Fe] = 2.29±0.05，[C/Fe] = 2.46±0.08)与早期恒星的富集预测相比也非常不寻常。

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Discovery of Super-enriched Gas ∼1 Gyr after the Big Bang

Abundances of chemical elements in the interstellar and circumgalactic media of high-redshift galaxies offer important constraints on the nucleosynthesis by early generations of stars. Damped Lyα absorbers (DLAs) in spectra of high-redshift background quasars are excellent sites for obtaining robust measurements of element abundances in distant galaxies. Past studies of DLAs at redshifts z > 4 have measured abundances of ≲0.01 solar. Here we report the discovery of a DLA at z = 4.7372 with an exceptionally high degree of chemical enrichment. We estimate the H i column density in this absorber to be log (N H I/cm−2) = 20.48 ± 0.15. Our analysis shows unusually high abundances of carbon and oxygen ([C/H] = 0.88 ± 0.17, [O/H] = 0.71 ± 0.16). Such a high level of enrichment a mere 1.2 Gyr after the Big Bang is surprising because of insufficient time for the required amount of star formation. To our knowledge, this is the first supersolar absorber found at z > 4.5. We find the abundances of Si and Mg to be [Si/H] = −0.56−0.35+0.40 and [Mg/H] = 0.59−0.50+0.27 , confirming the metal-rich nature of this absorber. By contrast, Fe shows a much lower abundance ([Fe/H] = −1.53−0.15+0.15 ). We discuss implications of our results for galactic chemical evolution models. The metallicity of this absorber is higher than that of any other known DLA and is >2 orders of magnitude above predictions of chemical evolution models and the N H I-weighted mean metallicity from previous studies at z > 4.5. The relative abundances (e.g., [O/Fe] = 2.29 ± 0.05, [C/Fe] = 2.46 ± 0.08) are also highly unusual compared to predictions for enrichment by early stars.

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The Astrophysical Journal Letters

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