COSMOS brightest group galaxies III. Evolution of stellar ages

G. Gozaliasl, A. Finoguenov, A. Babul, O. Ilbert, M. Sargent, E. Vardoulaki, A. Faisst, Z. Liu, M. Shuntov, O. Cooper, K. Dolag, S. Toft, G. Magdis, G. Toni, B. Mobasher, R. Barr'e, W. Cui, D. Rennehan
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Abstract

The unique characteristics of the brightest group galaxies (BGGs) serve as a link in the evolutionary continuum between galaxies such as the Milky Way and the more massive brightest cluster galaxies found in dense clusters. This research investigates the evolution of the stellar properties of BGGs over cosmic time ($z = 0.08-1.30$), extending the work from our prior studies. We analyzed the data of 246 BGGs selected from our X-ray galaxy group catalog within the COSMOS field, examining stellar age, mass, star-formation rate (SFR), specific SFR, and halo mass. We compared observations with the Millennium and Magneticum simulations. Additionally, we investigated whether stellar properties vary with the projected offset from the X-ray peak or the hosting halo center. We evaluated the accuracy of SED-derived stellar ages using a mock galaxy catalog, finding a mean absolute error of around 1 Gyr. Interestingly, the observed BGG age distributions exhibit a bias toward younger intermediate ages compared to both semi-analytical models and the Magneticum simulation. Our analysis of stellar age versus mass unveils intriguing trends with a positive slope, hinting at complex evolutionary pathways across redshifts. We observed a negative correlation between stellar age and SFR across all redshift ranges. We employed a cosmic time dependent main sequence framework to identify star forming BGGs and find that approximately 20 of BGGs in the local universe continue to exhibit characteristics typical of star forming galaxies, with this proportion increasing to 50 at $z=1.0$. Our findings support an inside-out formation scenario for BGGs, where older stellar populations reside near the X-ray peak and younger populations at larger offsets indicate ongoing star-formation. The observed distribution of stellar ages, particularly for lower-mass BGGs in the range of $10^ M_ deviates from the constant ages predicted by the models across all stellar mass ranges and redshifts. This discrepancy aligns with the current models' known limitations in accurately capturing galaxies' complex star-formation histories.
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COSMOS 最亮星系群 III.恒星年龄的演变
最亮星团星系(BGGs)的独特特性是银河系等星系与密集星团中质量更大的最亮星团星系之间演化连续性的纽带。这项研究调查了 BGGs 的恒星特性随宇宙时间($z = 0.08-1.30$)的演化情况,扩展了我们之前的研究工作。我们分析了从 COSMOS 星域的 X 射线星系群目录中选出的 246 个 BGGs 的数据,研究了恒星年龄、质量、恒星形成率(SFR)、比 SFR 和晕质量。我们将观测结果与千年模拟和 Magneticum 模拟进行了比较。此外,我们还研究了恒星特性是否会随着投影偏离 X 射线峰值或寄主光环中心而变化。我们使用模拟星系目录评估了 SED 导出恒星年龄的准确性,发现平均绝对误差约为 1 Gyr。有趣的是,与半分析模型和 Magneticum 模拟相比,观测到的 BGG 年龄分布偏向于更年轻的中间年龄。我们对恒星年龄与质量的关系进行了分析,揭示了具有正斜率的有趣趋势,暗示了跨红移的复杂演化路径。在所有红移范围内,我们都观察到恒星年龄与 SFR 之间存在负相关关系。我们采用了一个与宇宙时间相关的主序框架来识别恒星形成的BGGs,并发现本地宇宙中大约有20个BGGs继续表现出恒星形成星系的典型特征,在$z=1.0$时这一比例增加到50个。我们的研究结果支持BGG由内而外的形成过程,即较老的恒星群位于X射线峰值附近,而较年轻的恒星群则位于较大的偏移位置,这表明恒星正在形成。观测到的恒星年龄分布,尤其是在 10^ M_ 美元范围内的低质量 BGGs,偏离了模型在所有恒星质量范围和红移下预测的恒定年龄。这种差异与当前模型在准确捕捉星系复杂恒星形成历史方面的已知局限性是一致的。
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