Michael J. Rutkowski, Bonnabelle Zabelle, Tyler Hagen, Anahita Alavi, Seth Cohen, Christopher Conselice, Norman Grogin, Yicheng Guo, Matthew Hayes, Sugata Kaviraj, Anton Koekemoer, Ray A. Lucas, Kameswara Bharadwaj Mantha, Alec Martin, Vihang Mehta, Bahram Mobasher, Nimish Hathi, Zhiyuan Ji, Kalina V. Nedkova, Robert O’Connell, Marc Rafelski, Claudia Scarlata, Harry I. Teplitz, Xin Wang, Rogier Windhorst, L. Y. Aaron Yung and
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引用次数: 0
摘要
对大质量静止星系的观测揭示了一个相对均匀的演化过程:随着早期宇宙中大量恒星的形成,这些星系在局部宇宙中熄灭并过渡到它们特有的静止状态。关于驱动这种演变的过程的相对作用和频率的争论是强有力的。在这篇论文中,我们使用传统的颜色选择方法在哈勃太空望远镜/UVCANDELS星系外深场中识别出0.5 × z × 1.5个大质量的静止星系,并结合新的紫外图像建立了它们的光谱能量分布模型。该分析表明,约15%的大质量、静止星系经历了较小的、最近的恒星形成(在过去的约1 Gyr内小于恒星总质量的10%)。我们从统计分析中发现,最近恒星形成的概率与当地环境丰富度的测量之间只有微弱的正相关。假设这些静止星系中最近的恒星形成与当地环境有物理联系,这些结果表明,在这种红移中,动态外部过程(星系合并和相互作用)在这些星系的形成和演化中只起了很小的作用。
Recent Star Formation in 0.5 < z < 1.5 Quiescent Galaxies
Observations of massive, quiescent galaxies reveal a relatively uniform evolution: following prolific star formation in the early Universe, these galaxies quench and transition to their characteristic quiescent state in the local Universe. The debate on the relative role and frequency of the process(es) driving this evolution is robust. In this Letter, we identify 0.5 ≲ z ≲ 1.5 massive, quiescent galaxies in the Hubble Space Telescope/UVCANDELS extragalactic deep fields using traditional color selection methods and model their spectral energy distributions, incorporating novel UV images. This analysis reveals ∼15% of massive, quiescent galaxies have experienced minor, recent star formation (<10% of total stellar mass within the past ∼1 Gyr). We find only a marginal, positive correlation between the probability for recent star formation and a measure of the richness of the local environment from a statistical analysis. Assuming the recent star formation present in these quiescent galaxies is physically linked to the local environment, these results suggest only a minor role for dynamic external processes (galaxy mergers and interactions) in the formation and evolution of these galaxies at this redshift.
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