The COSMOS-Web ring: Spectroscopic confirmation of the background source at z = 5.1

IF 5.4 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS

Astronomy & Astrophysics Pub Date : 2025-04-18 DOI:10.1051/0004-6361/202554273

Marko Shuntov, Shuowen Jin, Wilfried Mercier, Jeyhan S. Kartaltepe, Rebecca Larson, Ali Ahmad Khostovan, Raphaël Gavazzi, James W. Nightingale, Olivier Ilbert, Rafael Arango-Toro, Maximilien Franco, Hollis B. Akins, Caitlin M. Casey, Henry Joy McCracken, Laure Ciesla, Georgios E. Magdis, Aristeidis Amvrosiadis, Andrea Enia, Andreas L. Faisst, Anton M. Koekemoer, Clotilde Laigle, Damien Le Borgne, Richard Massey, Thibaud Moutard, Mattia Vaccari

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Abstract

We report the spectroscopic confirmation of the background source of the most distant Einstein ring known to date, the COSMOS-Web ring. This system consists of a complete Einstein ring at z = 5.1, which is lensed by a massive early-type galaxy at z ∼ 2. The redshift z = 5.1043 ± 0.0004 is unambiguously identified with our NOEMA and Keck/MOSFIRE spectroscopy; the NOEMA observations reveal the CO(4–3) and CO(5–4) lines at > 8σ, and the MOSFIRE data detect [O II] at ∼6σ. Using multiwavelength photometry spanning near-infrared to radio bands, we find that the lensed galaxy is a dust-obscured starburst (M_{⋆_{∼ 1.8 × 10^{10^{M_{⊙_{, SFR_{IR_{∼ 60 M_{⊙_{yr^{−1^{) with a high star formation efficiency (gas depletion time τ_{dep_{< 100 Myr), as indicated by the [C I](1–0) non-detection. The redshift confirmation re-validates that the total lens mass budget within the Einstein radius is fully accounted for by the stellar and dark matter components, without the need of modifying the initial mass function or dark matter distribution profile. This work paves the way for detailed studies and future follow-ups of this unique lensing system, which is an ideal laboratory for studying mass distribution at z ∼ 2 and physical conditions of star formation at z ∼ 5.}}}}}}}}}}}}}}

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宇宙网环：在z = 5.1处背景源的光谱确认

我们报告了迄今为止已知的最遥远的爱因斯坦环的背景源的光谱确认，宇宙网环。这个系统由z = 5.1的完整爱因斯坦环组成，它被z ~ 2的大质量早期星系透镜。我们的NOEMA和Keck/MOSFIRE光谱明确地确定了红移z = 5.1043±0.0004；NOEMA观测显示CO（4-3）和CO（5-4）谱线在bbbb8 σ， MOSFIRE数据检测到[O II]在~ 6σ。利用跨越近红外到射电波段的多波长测光技术，我们发现透镜星系是一个尘埃遮蔽的星暴（M -−1.8 × 1010 M⊙,SFRIR−60 M⊙yr−1），具有很高的恒星形成效率（气体耗尽时间τdep z ~ 2）和恒星形成的物理条件在z ~ 5。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Astronomy & Astrophysics 地学天文-天文与天体物理

CiteScore
10.20

自引率
27.70%

发文量
2105

审稿时长
1-2 weeks

期刊介绍： Astronomy & Astrophysics is an international Journal that publishes papers on all aspects of astronomy and astrophysics (theoretical, observational, and instrumental) independently of the techniques used to obtain the results.

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