The origin of the planetary nebula M 1-16. A morphokinematic and chemical analysis

Abstract

We investigated the origin of the Planetary Nebula (PN) M 1-16 using narrow-band optical imaging, and high- and low-resolution optical spectra to perform a detailed morpho-kinematic and chemical studies. M 1-16 is revealed to be a multipolar PN that predominantly emits in [O III] in the inner part of the nebula and [N II] in the lobes. A novel spectral unsharp masking technique was applied to the position-velocity (PV) maps to reveal a set of multiple structures at the centre of M 1-16 spanning radial velocities from -40km\,s-1 to 20km\,s-1, with respect to the systemic velocity. The morpho-kinematic model indicates that the deprojected velocity of the lobe outflows are ≥100km\,s-1, and particularly the larger lobes and knots have a deprojected velocity of 350km\,s-1; the inner ellipsoidal component has a deprojected velocity of 29km\,s-1. A kinematical age of 8700yr has been obtained from the model assuming a homologous velocity expansion law and a distance of 6.21.9kpc. The chemical analysis indicates that M 1-16 is a Type I PN with a central star of PN (CSPN) mass in the range of 0.618-0.713M and an initial mass for the progenitor star between 2.0 and 3.0M (depending on metallicity). An Teff140\,000K and log(L/L)=2.3 was estimated using the 3MdB photoionisation models to reproduce the ionisation stage of the PN. All of these results have led us to suggest that M 1-16 is an evolved PN, contrary to the scenario of proto-PN suggested in previous studies. We propose that the mechanism responsible for the morphology of M 1-16 is related to the binary (or multiple star) evolution scenario.