Tracing the Earliest Stages of Star and Cluster Formation in 19 Nearby Galaxies with PHANGS-JWST and HST: Compact 3.3 μm Polycyclic Aromatic Hydrocarbon Emitters and Their Relation to the Optical Census of Star Clusters

The Astrophysical Journal Pub Date : 2025-04-14 DOI:10.3847/1538-4357/adbb69

M. Jimena Rodríguez, Janice C. Lee, Remy Indebetouw, B. C. Whitmore, Daniel Maschmann, Thomas G. Williams, Rupali Chandar, A. T. Barnes, Oleg Y. Gnedin, Karin M. Sandstrom, Erik Rosolowsky, Adam K. Leroy, David A. Thilker, Hwihyun Kim, Jiayi Sun, Ralf S. Klessen, Brent Groves, Aida Wofford, Médéric Boquien, Daniel A. Dale, Leonardo Úbeda, Kirsten L. Larson, Kathryn Grasha, Kelsey E. Johnson, Rebecca C. Levy, Frank Bigiel, Hamid Hassani and Sumit K. Sarbadhicary

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Abstract

The earliest stages of star and cluster formation are hidden within dense cocoons of gas and dust, limiting their detection at optical wavelengths. With the unprecedented infrared capabilities of JWST, we can now observe dust-enshrouded star formation with ∼10 pc resolution out to ∼20 Mpc. Early findings from PHANGS-JWST suggest that 3.3 μm polycyclic aromatic hydrocarbon (PAH) emission can identify star clusters in their dust-embedded phases. Here, we extend this analysis to 19 galaxies from the PHANGS-JWST Cycle 1 Treasury survey, providing the first characterization of compact sources exhibiting 3.3 μm PAH emission across a diverse sample of nearby star-forming galaxies. We establish a selection criteria based on a median color threshold of F300M − F335M = 0.67 at F335M = 20 and identify 1816 sources. These sources are predominantly located in dust lanes, spiral arms, rings, and galaxy centers, with ∼87% showing concentration indices (CIs) similar to optically detected star clusters. Comparison with the PHANGS-HST catalogs suggests that PAH emission fades within ∼3 Myr. The Hα equivalent width of PAH emitters is 1–2.8 times higher than that of young PHANGS-HST clusters, providing evidence that PAH emitters are on average younger. Analysis of the bright portions of luminosity functions (which should not suffer from incompleteness) shows that young dusty clusters may increase the number of optically visible ≤3 Myr old clusters in PHANGS-HST by a factor between ∼1.8× and 8.5×.

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用PHANGS-JWST和HST追踪19个邻近星系中恒星和星团形成的早期阶段：致密3.3 μm多环芳烃发射体及其与星团光学普查的关系

恒星和星团形成的最早阶段隐藏在气体和尘埃的密集茧中，限制了它们在光学波长上的探测。凭借JWST前所未有的红外能力，我们现在可以以~ 10pc的分辨率到~ 20mpc的分辨率观察尘埃笼罩的恒星形成。PHANGS-JWST的早期发现表明，3.3 μm的多环芳烃（PAH）发射可以识别尘埃嵌入阶段的星团。在这里，我们将这一分析扩展到来自PHANGS-JWST Cycle 1国库调查的19个星系，提供了在附近恒星形成星系的不同样本中显示3.3 μm多环芳烃发射的致密源的第一个特征。我们基于F335M = 20时的中位数颜色阈值F300M−F335M = 0.67建立了一个选择标准，并识别了1816个光源。这些源主要位于尘埃带、旋臂、环和星系中心，约87%的源显示出与光学探测到的星团相似的浓度指数（CIs）。与PHANGS-HST目录的比较表明，多环芳烃的发射在~ 3myr内逐渐消失。PAH发射体的Hα等效宽度比年轻的PHANGS-HST团高1-2.8倍，证明PAH发射体平均较年轻。对光度函数的明亮部分（不应该有不完整性）的分析表明，年轻的尘埃星团可能会使PHANGS-HST中光学可见≤3 Myr的老星团的数量增加1.8到8.5倍。

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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The Astrophysical Journal

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