Abstract
ABSTRACT We present a supervised machine learning methodology to classify stellar populations in the Local Group dwarf-irregular galaxy NGC 6822. Near-IR colours (J − H, H − K, and J − K), K-band magnitudes and far-IR surface brightness (at 70 and 160 $\mu$m) measured from Spitzer and Herschel images are the features used to train a Probabilistic Random Forest (PRF) classifier. Point-sources are classified into eight target classes: young stellar objects (YSOs), oxygen- and carbon-rich asymptotic giant branch stars, red giant branch and red supergiant stars, active galactic nuclei, massive main-sequence stars, and Galactic foreground stars. The PRF identifies sources with an accuracy of ∼ 90 per cent across all target classes rising to ∼96 per cent for YSOs. We confirm the nature of 125 out of 277 literature YSO candidates with sufficient feature information, and identify 199 new YSOs and candidates. Whilst these are mostly located in known star-forming regions, we have also identified new star formation sites. These YSOs have mass estimates between ∼15 and 50 M⊙, representing the most massive YSO population in NGC 6822. Another 82 out of 277 literature candidates are definitively classified as non-YSOs by the PRF analysis. We characterize the star formation environment by comparing the spatial distribution of YSOs to those of gas and dust using archival images. We also explore the potential of using (unsupervised) t-distributed stochastic neighbour embedding maps for the identification of the same stellar population classified by the PRF.
Highlights
Resolved star formation has been extensively studied on large scales in both the Milky Way and Magellanic Clouds (MCs)
With the training set defined for our eight target classes we ran the Probabilistic Random Forest (PRF) on the remaining catalogue data
There are 182 sources identified as young stellar objects (YSOs) in all the PRF runs; these are classified as highest probability YSOs
Summary
Resolved star formation has been extensively studied on large scales in both the Milky Way and Magellanic Clouds (MCs). Sibbons et al 2012, 2015) NGC 6822 is the closest dwarf irregular galaxy to the Milky Way beyond the MCs. With no known companions (see e.g. De Blok & Walter 2000), and no previous interactions with large Local Group galaxies M31 or the Milky Way (McConnachie et al 2021), NGC 6822 presents itself as a non-tidally disrupted analogue to the SMC. By understanding how star formation progresses in NGC 6822 the impact of tidal interactions on triggering star formation can be better constrained. Understanding massive star formation in a metal-poor environment has implications for studies of the early Universe as well, and NGC 6822 provides an analogue for typical star forming galaxies at z ∼ 2.
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