Submillimeter Observations of the Quiescent Core - Ophiuchus A-N6

TL;DR

This study uses submillimeter and radio observations to analyze the chemical composition, temperature profile, and gravitational collapse of the Oph A-N6 prestellar core, revealing it as an extremely young, collapsing core with layered chemical structure.

Contribution

First detailed chemical and kinematic analysis of the Oph A-N6 prestellar core using multiple molecular tracers and telescopes.

Findings

N2D+ traces high-density interior

DCO+ and H13CO+ trace intermediate regions

CS traces outer edges of the core

Abstract

We have observed the Oph A-N6 prestellar core in the following transitions: N2D+ J=3 to 2, DCO+ J=3 to 2 and J=5 to 4, HCO+ J=3 to 2, CS J=5 to 4 and J=7 to 6, and H13CO+ J=3 to 2 and J=4 to 3, using the James Clerk Maxwell Telescope. We also observed the NH3 (1,1) and (2,2) inversion transitions towards the Oph A-N6 peak with the Green Bank Telescope. We have found that the N6 core is composed of shells of different chemical composition due to the freezing out of chemical species at different densities. The undepleted species N2D+ appears to trace the high-density interior of the core, DCO+ and H13CO+ trace an intermediate region, and CS traces the outermost edges of the core. A distinct blue-red spectral asymmetry, indicative of infall motion, is clearly detected in the HCO+ spectra, suggesting that N6 is undergoing gravitational collapse. This collapse was possibly initiated by a decrease in turbulent support suggested by the fact that the non-thermal contribution to the line widths is smaller for the molecular species closer to the center of the core. We also present a temperature profile for the core. These observations support the claim that the Oph A-N6 core is an extremely young prestellar core, which may have been recently cut off from MHD support and begun to collapse.