Star Formation in the Extreme Outer Galaxy: Digel Cloud 2 Clusters

As a first step for studying star formation in the extreme outer Galaxy (EOG), we obtained deep near-infrared (J,H,K-bands) images of two embedded clusters at the northern and southern CO peaks of Cloud 2, which is one of the most distant star forming regions in the outer Galaxy (galactic radius Rg ∼ 19 kpc). With high spatial resolution (FWHM ∼ 0. 3–0. 35) and deep imaging (K ∼ 21 mag, 5 σ) with the IRCS imager at the Subaru telescope, we detected cluster members with a mass detection limit of < 0.1M⊙, which is well into the substellar regime. These high quality data enables a comparison of EOG to those in the solar neighborhood on the same basis for the first time. Before interpreting the photometric result, we have first constructed the NIR color-color diagram (dwarf star track, classical T Tauri star (CTTS) locus, reddening law) in the Mauna Kea Observatory filter system and also for the low metallicity environment since the metallicity in EOG is much lower than those in the solar neighborhood. The estimated stellar density suggests that an “isolated type” star formation is ongoing in Cloud 2-N, while a “cluster type” star formation is ongoing in Cloud 2-S. Despite the difference of the star formation mode, other characteristics of the two clusters are found to be almost identical: (1) K-band luminosity function (KLF) of the two clusters are quite similar, as is the estimated IMF and ages (∼ 0.5–1 Myr) from the KLF fitting, (2) the estimated star formation efficiencies (SFEs) for both clusters are typical compared to those of embedded clusters in the solar neighborhood (∼ 10 %). The similarity of two independent clusters with a large separation (∼ 25 pc) strongly suggest that their star formation activities were triggered by the same mechanism, probably the supernova remnant (GSH 138-01-94) as suggested in Kobayashi et al. and Yasui et al. Subject headings: infrared: stars – stars: formation – stars: pre-main-sequence – open clusters and associations: individual (Digel Cloud 2) – stars: luminosity function, mass function – ISM: clouds – supernova remnants