Probing the kinematics and chemistry of the hot core Mon R 2 IRS 3 using ALMA observations

Abstract

We present high angular resolution 1.1mm continuum and spectroscopic ALMA observations of the well-known massive proto-cluster Mon R 2 IRS 3.The continuum image at 1.1mm shows two components, IRS 3 A and IRS 3 B, that are separated by 0.65". We estimate that IRS 3 A is responsible of 80 % of the continuum flux, being the most massive component. We explore the chemistry of IRS 3 A based on the spectroscopic observations. In particular, we have detected intense lines of S-bearing species such as SO, SO2, H2CS and OCS, and of the Complex Organic Molecules (COMs) methyl formate (CH3OCHO) and dimethyl ether (CH3OCH3). The integrated intensity maps of most species show a compact clump centered on IRS 3 A, except the emission of the COMs that is more intense towards the near-IR nebula located to the south of IRS 3 A, and HC3N whose emission peak is located 0.5" NE from IRS 3 A. The kinematical study suggests that the molecular emission is mainly coming from a rotating ring and/or an unresolved disk. Additional components are traced by the ro-vibrational HCN 2=1 3→2 line which is probing the inner disk/jet region, and the weak lines of CH3OCHO, more likely arising from the walls of the cavity excavated by the molecular outflow. Based on SO2 we derive a gas kinetic temperature of Tk 170 K towards the IRS 3 A. The most abundant S-bearing species is SO2 with an abundance of 1.3×10-7, and (SO/SO2) 0.29. Assuming the solar abundance, SO2 accounts for 1 % of the sulphur budget.