Linking High-z and Low-z: Are We Observing the Progenitors of the Milky Way with JWST?

Elka Rusta, Stefania Salvadori, Viola Gelli, Ioanna Koutsouridou and Alessandro Marconi
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Abstract

The recent JWST observation of the Firefly Sparkle at z = 8.3 offers a unique opportunity to link the high- and the low-z Universe. Indeed, the claim of it being a Milky Way (MW) type of assembly at the cosmic dawn opens the possibility of interpreting the observation with locally calibrated galaxy-formation models. Here, we use the a state-of-the-art MW-evolution model to perform forward modeling of our Galaxy's progenitors at high-z. We build a set of mock spectra for the MW building blocks to make predictions for JWST and to interpret the Firefly Sparkle observation. First, we find that the most massive MW progenitor becomes detectable in a deep survey like JADES from z ≈ 8.2, meaning that we could have already observed MW analogs that still need interpretation. Second, we provide predictions for the number of detectable MW progenitors in lensed surveys like the CAnadian NIRISS Unbiased Cluster Survey, and interpret the Firefly Sparkle as a group of MW building blocks. Both the number of detections and the observed NIRCam photometry are consistent with our predictions. By identifying the MW progenitors whose mock photometry best fits the data, we find bursty and extended star formation histories, lasting >150–300 Myr, and estimate their properties: Mh ≈ 108−9M⊙, M⋆ ≈ 106.2−7.5M⊙, SFR ≈ 0.04–0.20 M⊙ yr−1, and Zgas ≈ 0.04–0.24 Z⊙. Uncovering the properties of MW analogs at cosmic dawn by combining JWST observations and locally constrained models will allow us to understand our Galaxy's formation, linking the high- and low-z perspectives.
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连接高倍率和低倍率:我们用 JWST 观测到银河系的起源了吗?
JWST 最近对 z = 8.3 的萤火虫闪耀体的观测为连接高 z 和低 z 宇宙提供了一个独特的机会。事实上,关于它是宇宙黎明时银河系(MW)类型的集合体的说法,为我们提供了用局部校准的星系形成模型来解释这一观测结果的可能性。在这里,我们使用一个最先进的MW演化模型,对我们银河系在高兹时的祖先进行前向建模。我们为MW构件建立了一组模拟光谱,为JWST做出预测,并解释萤火虫闪烁的观测结果。首先,我们发现从z≈8.2开始,最大规模的MW原生体就可以在像JADES这样的深度巡天观测中被探测到了,这意味着我们可能已经观测到了仍需要解释的MW类似物。其次,我们对加拿大近红外巡天(NIRISS Unbiased Cluster Survey)等透镜巡天中可探测到的MW原生星的数量进行了预测,并将萤火虫闪烁解释为一组MW构件。探测到的数量和观测到的NIRCam光度都与我们的预测一致。通过识别模拟光度最符合数据的MW原生星,我们发现了持续时间大于150-300 Myr的爆发式和延长的恒星形成史,并估计了它们的性质:Mh≈108-9M⊙,M⋆≈106.2-7.5M⊙,SFR≈0.04-0.20M⊙yr-1,Zgas≈0.04-0.24Z⊙。通过结合 JWST 观测数据和局部约束模型来揭示宇宙拂晓时的 MW 类似物的性质,将使我们能够了解银河系的形成过程,并将高倍率和低倍率视角联系起来。
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