Diverse stages of star formation in the IRAS 18162-2048 region. Emergence of UV Feedback

Abstract

Methods: We obtained adaptive optics-assisted integral field spectroscopy in the near-infrared (IR) K band (1.93-2.47 μ m) with VLT/SINFONI, complemented by VLA X and C bands (3-6 cm) and ALMA band 3 (3.3 mm) observations. Results: The near-IR continuum reveals two infrared sources, IRS 2 and IRS 7, while the main protostellar core IRAS 18162-2048 remains undetected up to 2.47 μ m. IRS 7 shows a peculiar Hydrogen Recombination Line Brγ profile with a narrow emission component superimposed on a broad absorption feature, consistent with a B2/B3 zero-age main-sequence star. Extended H2 emission exhibits a `sawtooth' pattern in the excitation diagram, characteristic of UV radiation in a PDR rather than shock excitation. The radiative transfer model Cloudy reproduces the H2 ro-vibrational populations for Tgas=600 K and nH=7.9×103 cm-3. VLA X and C bands observations reveal a compact radio source previously reported as a stationary condensation (SC) and coincident with IRS 7. For the first time, we detect IRS 7/SC in mm wavelengths. The spectral index in the 3-6 cm and 3.3 mm regime is consistent with optically thin free-free emission. Conclusions: Our near-IR and radio observations reveal that IRS 7/SC is a B2/B3 ZAMS star that has begun to photoionise its environment, giving rise to an extended PDR and a compact Hii region. The coexistence of this source with the deeply embedded protostar IRAS 18162-2048 and other bubble-like structures in the field, suggests a multigenerational star-forming environment. Future James Webb Space Telescope observations targeting the H2 pure rotational lines (3-28 μ m) and other HRLs less affected by extinction will be essential to characterise the cooler molecular and ionised gas to fully disclose the formation history of the region.

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