14N/15N abundance ratio toward massive star-forming regions with different Galactic distances

Abstract

The abundance ratio of 14N/15N is, in principle, a powerful tool for tracing stellar nucleosynthesis. This work aims to measure and analyze (14N/15N)×(13C/12C) and 14N/15N abundance ratios in massive star-forming regions across a range of galactocentric distances to provide constraints on galactic chemical evolution (GCE) models. We present H13CN and HC15N J=2-1 results toward 51massive star-forming regions obtained with the Institut de Radioastronomie Millim\'etrique (IRAM) 30 meter telescope.\ We used these results to derive (14N/15N)×(13C/12C) abundance ratios as well as 14N/15N ratios using the double isotope method. We find an overall decreasing trend in the (14N/15N)×(13C/12C) abundance ratio and an increasing trend in the 14N/15N ratio with increasing galactocentric distance (D GC), which provides a good constraint for the GCE model based on high signal to noise ratio measurements. While the predicted (14N/15N)×(13C/12C) ratios between 6 and 12 kpc determined using current GCE models are consistent with our observational results, the ratios from models for D GC less than 6 kpc are significantly higher than the observational results, which indicates GCE models for 14N/15N and/or 13C/12C ratios need to be updated for at least this range.

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