用 HST 测量 M83 中红外选择星团的清除时间尺度

Suyash Deshmukh, Sean T. Linden, Daniela Calzetti, Angela Adamo, Matteo Messa, Kathryn Grasha, Elena Sabbi, Linda Smith and Kelsey E. Johnson
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摘要

我们对哈勃太空望远镜的宽视场相机3(WFC3)/紫外成像光谱仪、WFC3/红外成像光谱仪和高级巡天照相机的数据进行了分析,研究了面旋涡星系M83中的年轻恒星簇(YSC)群。在红外点阵的视场范围内,我们发现了 454 个具有紧凑的 F814W 连续波和 Paβ 线发射且信噪比≥ 3 的源,它们可能是嵌入尘埃中的 YSC 候选者。根据它们的光谱能量分布、多波长形态和测光不确定性,我们将候选源细化到 97 个。对于在所有波段都能探测到并且质量大于102.8M⊙的星源(53个),我们发现在2Myr之前,75%的红外星团的AV≤1,而在3Myr之前,这一比例上升到了82%。这些早期清除的证据意味着,来自大质量恒星的超新星前(pre-SN)反馈是清除M83中红外选择星团周围大部分原生气体和尘埃的罪魁祸首。此外,这一结果与之前根据WFC3观测得出的估计结果是一致的,并补充了越来越多的文献,表明前SN反馈对正常恒星形成星系中YSC的出现至关重要。最后,我们发现在最初的10 Myr中,YSC浓度指数与年龄之间的相关性很弱,这与之前的研究结果一致,表明M83中YSC的大小在其早期演化过程中几乎没有变化。
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The Clearing Timescale for Infrared-selected Star Clusters in M83 with HST
We present an analysis of Hubble Space Telescope data from Wide Field Camera 3 (WFC3)/Ultraviolet Imaging Spectrometer, WFC3/IR, and the Advanced Camera for Surveys, investigating the young stellar cluster (YSC) population in the face-on spiral galaxy M83. Within the field of view of the IR pointings, we identify 454 sources with compact F814W continuum and Paβ line emission with a S/N ≥ 3 as possible YSC candidates embedded in dust. We refine this selection to 97 candidates based on their spectral energy distributions, multiwavelength morphology, and photometric uncertainties. For sources that are detected in all bands and have mass >102.8M⊙ (53 sources), we find that by 2 Myr 75% of IR-selected star clusters have an AV ≤ 1 and that by 3 Myr the fraction rises to ∼82%. This evidence of early clearing implies that presupernova (pre-SN) feedback from massive stars is responsible for clearing the majority of the natal gas and dust that surround IR-selected star clusters in M83. Further, this result is consistent with previous estimates based on WFC3 observations and adds to the growing body of literature suggesting pre-SN feedback to be crucial for YSC emergence in normal star-forming galaxies. Finally, we find a weak correlation between the YSC concentration index and age over the first 10 Myr, which matches previous studies and indicates little or no change in the size of YSCs in M83 during their early evolution.
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