UNCOVER: Significant Reddening in Cosmic Noon Quiescent Galaxies

arXiv - PHYS - Astrophysics of Galaxies Pub Date : 2024-09-17 DOI:arxiv-2409.11457

Jared Siegel, David Setton, Jenny Greene, Katherine Suess, Katherine Whitaker, Rachel Bezanson, Joel Leja, Lukas Furtak, Sam Cutler, Anna de Graaff, Robert Feldmann, Gourav Khullar, Ivo Labbé, Danilo Marchesini, Tim Miller, Themiya Nanayakkara, Richard Pan, Sedona Price, Helena Treiber, Pieter van Dokkum, Bingjie Wang, John Weaver

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Abstract

We explore the physical properties of five massive quiescent galaxies at $z\sim2.5$, revealing the presence of non-negligible dust reservoirs. JWST NIRSpec observations were obtained for each target, finding no significant line emission; multiple star formation tracers independently place upper limits between $0.1-10~M_\odot / \mathrm{yr}$. Spectral energy distribution modeling with Prospector infers stellar masses between $\log_{10}[M / M_\odot] \sim 10-11$ and stellar mass-weighted ages between $1-2$ Gyr. The inferred mass-weighted effective radii ($r_{eff}\sim 0.4-1.4$ kpc) and inner $1$ kpc stellar surface densities ($\log_{10}[\Sigma / M_\odot \mathrm{kpc}^2 ]\gtrsim 9$) are typical of quiescent galaxies at $z \gtrsim 2$. The galaxies display negative color gradients (redder core and bluer outskirts); for one galaxy, this effect results from a dusty core, while for the others it may be evidence of an "inside-out" growth process. Unlike local quiescent galaxies, we identify significant reddening in these typical cosmic noon passive galaxies; all but one require $A_V \gtrsim 0.4$. This finding is in qualitative agreement with previous studies but our deep 20-band NIRCam imaging is able to significantly suppress the dust-age degeneracy and confidently determine that these galaxies are reddened. We speculate about the physical effects that may drive the decline in dust content in quiescent galaxies over cosmic time.

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发现：宇宙正午静止星系中的显著赤化现象

我们探索了五个大质量静态星系在$z/sim2.5$的物理特性，揭示了不可忽略的尘埃库的存在。我们对每个目标都进行了 JWSTNIRSpec 观测，没有发现明显的线发射；多个恒星形成追踪器独立地给出了 0.1-10~M_\odot / \mathrm{yr}$之间的上限。利用 "勘探者 "进行的光谱能量分布建模推断出恒星质量在$\log_{10}[M / M_\odot] \sim10-11$之间，恒星质量加权年龄在1-2$ Gyr之间。推断出的质量加权有效半径（$r_{eff}\sim 0.4-1.4$ kpc）和内1$ kpc恒星表面密度（$\log_{10}[\Sigma / M_\odot \mathrm{kpc}^2]\gtrsim9$）是典型的静态星系，频率为$z \gtrsim 2$。这些星系显示出负色梯度（内核更红，外围更蓝）；对于其中一个星系来说，这种效应是由内核的尘埃造成的，而对于其他星系来说，这可能是一个 "由内而外 "的生长过程的证据。与本地静止星系不同，我们在这些典型的宇宙正午被动星系中发现了显著的红化现象；除了一个星系之外，其他星系都需要 $A_V \gtrsim 0.4$。这一发现与之前的研究结果在质量上是一致的，但是我们的20波段NIRCam深成像能够显著抑制尘埃-年龄退化，并有把握地确定这些星系是变红的。我们推测可能是什么物理效应促使静态星系中的尘埃含量随着宇宙时间的推移而下降。

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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arXiv - PHYS - Astrophysics of Galaxies

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