An Emerging Wolf-Rayet Massive Star Cluster in NGC 4449

TL;DR

This study investigates the emerging massive star cluster S26 in NGC 4449, revealing its stellar population, dust properties, and feedback processes, and compares it to similar clusters like 30 Doradus.

Contribution

It provides a detailed multi-wavelength analysis of S26, highlighting the role of Wolf-Rayet stars in cluster evolution and feedback mechanisms.

Findings

S26 hosts approximately 240 massive stars, including 18 Wolf-Rayet stars.

The cluster is about 3 million years old and has not fully evacuated its natal material.

Feedback from Wolf-Rayet stars may be crucial for clearing gas and dust.

Abstract

We present a panchromatic investigation of the partially-embedded, emerging massive cluster Source 26 (= S26) in NGC 4449 with optical spectra obtained at Apache Point Observatory and archival Hubble, Spitzer, and Herschel Space Telescope images. First identified as a radio continuum source with a thermal component due to ionized material, the massive cluster S26 also exhibits optical Wolf-Rayet (WR) emission lines that reveal a large evolved massive star population. We find that S26 is host to $\sim$240 massive stars, of which $\sim$18 are Wolf-Rayet stars; the relative populations are roughly consistent with other observed massive star forming clusters and galaxies. We construct SEDs over two spatial scales (roughly 100 pc and 300 pc) that clearly exhibit warm dust and polycyclic aromatic hydrocarbon (PAH) emission. The best fit dust and grain models reveal that both the intensity of the exciting radiation and PAH grain destruction increase toward the cluster center. Given that the timescale of evacuation is important for the future dynamical evolution of the cluster, it is important to determine whether O- and WR stars can evacuate the material gradually before supernova do so on a much faster timescale. With a minimum age of $\approx$ 3 Myr, it is clear that S26 has not yet fully evacuated its natal material, which indicates that unevolved O-type stars alone do not provide sufficient feedback to remove the gas and dust. We hypothesize that the feedback of WR stars in this cluster may be necessary for clearing the material from the gravitational potential of the cluster. We find S26 is similar to Emission Line Clusters observed in the Antennae Galaxies and may be considered a younger analog to 30 Doradus in the LMC.