ATLASGAL --- Environments of 6.7\,GHz methanol masers

TL;DR

This study uses the ATLASGAL survey to analyze the environments of 6.7 GHz methanol masers, revealing their strong association with massive star-forming clumps and providing insights into Galactic star formation distribution.

Contribution

It presents a large-scale analysis linking methanol masers to massive star-forming regions and examines their Galactic distribution, highlighting variations in star formation efficiency.

Findings

94% of methanol masers are associated with sub-millimetre dust emission.

Most maser-associated clumps are massive, centrally condensed, and likely to form clusters.

Star formation efficiency varies across the Galaxy, with reduced activity in the Galactic centre.

Abstract

Using the 870-$\mu$m APEX Telescope Large Area Survey of the Galaxy (ATLASGAL), we have identified 577 submillimetre continuum sources with masers from the methanol multibeam (MMB) survey in the region $280\degr < \ell < 20\degr$; $|\,b\,| < 1.5\degr$. 94\,per\,cent of methanol masers in the region are associated with sub-millimetre dust emission. We estimate masses for ~450 maser-associated sources and find that methanol masers are preferentially associated with massive clumps. These clumps are centrally condensed, with envelope structures that appear to be scale-free, the mean maser position being offset from the peak column density by 0.0 \pm 4". Assuming a Kroupa initial mass function and a star-formation efficiency of ~30\,per\,cent, we find that over two thirds of the clumps are likely to form clusters with masses >20\,\msun. Furthermore, almost all clumps satisfy the empirical mass-size criterion for massive star formation. Bolometric luminosities taken from the literature for ~100 clumps range between ~100 and 10$^6$\,\lsun. This confirms the link between methanol masers and massive young stars for 90\,per\,cent of our sample. The Galactic distribution of sources suggests that the star-formation efficiency is significantly reduced in the Galactic-centre region, compared to the rest of the survey area, where it is broadly constant, and shows a significant drop in the massive star-formation rate density in the outer Galaxy. We find no enhancement in source counts towards the southern Scutum-Centaurus arm tangent at $\ell ~ 315\degr$, which suggests that this arm is not actively forming stars.