Discovery of MgS and NaS in the Interstellar Medium and tentative detection of CaO

TL;DR

This study reports the first detection of NaS and MgS molecules and a tentative detection of CaO in the interstellar medium, providing insights into metal-bearing molecule formation in space.

Contribution

It presents the first observational evidence of NaS and MgS in the ISM and discusses their formation pathways and abundance ratios, highlighting sulfur's low depletion in the region.

Findings

First detection of NaS and MgS in the ISM.

Metal-bearing sulfur molecules are more abundant than oxygen ones.

Sulfur may be little depleted due to low velocity shocks.

Abstract

We report the first detection of the metal-bearing molecules sodium sulfide (NaS) and magnesium sulfide (MgS) and the tentative detection of calcium monoxide (CaO) in the interstellar medium (ISM) towards the Galactic Center molecular cloud G+0.693-0.027. The derived column densities are (5.0+-1.1) x 10$^{10}$ cm$^{-2}$, (6.0+-0.6) x $^{10}$ cm$^{-2}$, and (2.0+-0.5) x $^{10}$ cm$^{-2}$, respectively. This translates into fractional abundances with respect to H$_2$ of (3.7+-1.0) x $10^{-13}$, (4.4+-0.8) x $10^{-13}$, and (1.5+-0.4) x $10^{-13}$, respectively. We have also searched for other Na-, Mg- and Ca-bearing species towards this source but none of them have been detected and thus we provide upper limits for their abundances. We discuss the possible chemical routes involved in the formation of these molecules containing metals under interstellar conditions. Finally, we compare the ratio between sulfur-bearing and oxygen-bearing molecules with and without metals, finding that metal-bearing sulfur molecules are much more abundant than metal-bearing oxygen ones, in contrast with the general trend found in the ratios between other non metal- oxygen- and sulfur-bearing molecules. This further strengthen the idea that sulfur may be little depleted in G+0.693-0.027 as a result of the low velocity shocks present in this source sputtering large amounts of material from dust grains.