TMRT Observations of Carbon-chain molecules in Serpens South 1A

TL;DR

This study reports the detection of long carbon-chain molecules in the starless cloud Serpens South 1A using the Shanghai Tian Ma Radio Telescope, revealing detailed isotopic ratios and molecular abundances comparable to known rich sources.

Contribution

First detection of specific hyperfine components and isotopic ratios of carbon-chain molecules in Serpens South 1A, advancing understanding of interstellar carbon chemistry.

Findings

Detected multiple long carbon-chain molecules and hyperfine components.

Column densities comparable to TMC-1 and Lupus-1A.

Isotopic ratios suggest similar carbon isotope distribution as in TMC-1.

Abstract

We report Shanghai Tian Ma Radio Telescope detections of several long carbon-chain molecules at C and Ku band, including HC3N, HC5N, HC7N, HC9N, C3S, C6H and C8H toward the starless cloud Serpens South 1a. We detected some transitions (HC9N J=13-12 F=12-11 and F=14-13, H13CCCN J=2-1 F=1-0 and F=1-1, HC13CCN J=2-1 F=2-2, F=1-0 and F=1-1, HCC13CN J=2-1 F=1-0 and F=1-1) and resolved some hyperfine components (HC5N J=6-5 F=5-4, H13CCCN J=2-1 F=2-1) for the first time in the interstellar medium. The column densities of these carbon-chain molecules in a range of 10^{12}-10^{13} cm^{-2} are comparable to two carbon-chain molecule rich sources, TMC-1 and Lupus-1A. The abundance ratios are 1.00:(1.11\pm0.15):(1.47\pm0.18) for [H13CCCN]:[HC13CCN]:[HCC13CN]. This result implies that the 13C isotope is also concentrated in the carbon atom adjacent to the nitrogen atom in HC3N in Serpens south 1a, which is similar to TMC-1. The [HC3N]/[H13CCCN] ratio of 78\pm9, the [HC3N]/[HC13CCN] ratio of 70\pm8, and the [HC3N]/[HCC13CN] ratio of 53\pm4 are also comparable to those in TMC-1. In any case, Serpens South 1a proves a testing ground for understanding carbon-chain chemistry.