LEGUS and Hα-LEGUS Observations of Star Clusters in NGC 4449: Improved Ages and the Fraction of Light in Clusters as a Function of Age

Bradley C. Whitmore, Rupali Chandar, Janice Lee, Leonardo Ubeda, Angela Adamo, Alessandra Aloisi, Daniela Calzetti, Michele Cignoni, David Cook, Daniel Dale, B. G. Elmegreen, Dimitrios Gouliermis, Eva K. Grebel, Kathryn Grasha, Kelsey E. Johnson, Hwihyun Kim, Elena Sacchi, Linda J. Smith, Monica Tosi, Aida Wofford

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    36 Citations (Scopus)

    Abstract

    We present a new catalog and results for the cluster system of the starburst galaxy NGC 4449, based on multiband imaging observations taken as part of the LEGUS and Hα-LEGUS surveys. We improve the spectral energy fitting method used to estimate cluster ages, and find that the results, particularly for older clusters, are in better agreement with those from spectroscopy. The inclusion of Hα measurements, the role of stochasticity for low-mass clusters, the assumptions about reddening, and the choices of SSP model and metallicity all have important impacts on the age dating of clusters. A comparison with ages derived from stellar color-magnitude diagrams for partially resolved clusters shows reasonable agreement, but large scatter in some cases. The fraction of light found in clusters relative to the total light (i.e., T L) in the U, B, and V filters in 25 different ≈ kiloparsec-size regions throughout NGC 4449 correlates with both the specific region luminosity, R L, and the dominant age of the underlying stellar population in each region. The observed cluster age distribution is found to decline over time as dN/dτ ∝ τ γ, with γ =-0.85 ± 0.15, independent of cluster mass, and is consistent with strong, early cluster disruption. The mass functions of the clusters can be described by a power law with dN/dM ∝ M β and β =-1.86 ± 0.2, independent of cluster age. The mass and age distributions are quite resilient to differences in age-dating methods. There is tentative evidence for a factor of 2-3 enhancement in both the star and cluster formation rate ≈100-300 Myr ago, indicating that cluster formation tracks star formation generally. The enhancement is probably associated with an earlier interaction event.

    Original languageEnglish
    Article number154
    JournalAstrophysical Journal
    Volume889
    Issue number2
    DOIs
    Publication statusPublished - 1 Feb 2020

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