Recently, Dilda Berdikhan, a PhD student from the star formation and evolution research group of the Xinjiang Astronomical Observatory (XAO) of the Chinese Academy of Sciences (CAS), and her collaborators used the NanShan 26-meter Radio Telescope (NSRT) to observe NH₃ (1,1) and (2,2) inversion transitions in the Planck cold core Milky Way.

The results have been published in Astronomy & Astrophysics. 

The Planck cold cores are a set of sources identified by the Planck team in 2011 using the Planck telescope's all-sky data in the millimeter to sub-millimeter wavelength range. Subsequent observational studies have shown that these Planck sources are in early stages of star formation. Ammonia molecule is an excellent tracer of molecular clouds with a density of ~10³ cm^-3 and a temperature of < 40 K. 

The researchers thus performed ammonia observations towards 672 Planck sources using the NSRT. The results indicated that 249 (37%) Planck cold cores detected NH₃(1,1) emission lines, with 187 cores detected hyperfine structure, and 76 cores showing detections of NH₃(2,2) emission lines.

They calculated important physical parameters of the cold cores, such as NH₃ line width, column density, kinematic temperature, and NH₃ abundance. Comparisons with samples from various evolutionary stages have revealed that NH₃ kinematic temperature can serve as a tool for distinguishing between different stages. The kinematic temperature of UC HII region candidates is higher than that of Planck cold cores, while the latter exhibit lower temperatures than high infrared extinction clouds.

 

Contact: Dilda Berdikhan

Xinjiang Astronomical Observatory, Chinese Academy of Sciences

Email: dilda@xao.ac.cn

Article link:https://ui.adsabs.harvard.edu/abs/2024A%26A...684A.144B/abstract