2013A&A...557A.101G


C.D.S. - SIMBAD4 rel 1.7 - 2019.09.23CEST12:33:58

2013A&A...557A.101G - Astronomy and Astrophysics, volume 557A, 101-101 (2013/9-1)

The IRAM-30 M line survey of the Horsehead PDR. III. High abundance of complex (iso-)nitrile molecules in UV-illuminated gas.

GRATIER P., PETY J., GUZMAN V., GERIN M., GOICOECHEA J.R., ROUEFF E. and FAURE A.

Abstract (from CDS):

Complex (iso-)nitrile molecules, such as CH3CN and HC3N, are relatively easily detected in our Galaxy and in other galaxies. We aim at constraining their chemistry through observations of two positions in the Horsehead edge: the photo-dissociation region (PDR) and the dense, cold, and UV-shielded core just behind it. We systematically searched for lines of CH3CN, HC3N, C3N, and some of their isomers in our sensitive unbiased line survey at 3, 2, and 1#1. We stacked the lines of C3N to improve the detectability of this species. We derived column densities and abundances through Bayesian analysis using a large velocity gradient radiative transfer model. We report the first clear detection of CH3NC at millimeter wavelength. We detected 17 lines of CH3CN at the PDR and 6 at the dense core position, and we resolved its hyperfine structure for 3 lines. We detected 4 lines of HC3N, and C3N is clearly detected at the PDR position. We computed new electron collisional rate coefficients for CH3CN, and we found that including electron excitation reduces the derived column density by 40% at the PDR position, where the electron density is 1-5#1. While CH3CN is 30 times more abundant in the PDR (2.5x10–10) than in the dense core (8x10–12), HC3N has similar abundance at both positions (8x10–12). The isomeric ratio CH3NC/CH3CN is 0.15±0.02. The significant amount of complex (iso-)nitrile molecule in the UV illuminated gas is puzzling as the photodissociation is expected to be efficient. This is all the more surprising in the case of CH3CN, which is 30 times more abundant in the PDR than in the dense core. In this case, pure gas phase chemistry cannot reproduce the amount of CH3CN observed in the UV-illuminated gas. We propose that CH3CN gas phase abundance is enhanced when ice mantles of grains are destroyed through photo-desorption or thermal-evaporation in PDRs, and through sputtering in shocks.

Abstract Copyright:

Journal keyword(s): astrochemistry - ISM: clouds - ISM: molecules - ISM: individual objects: Horsehead - radiative transfer

Simbad objects: 8

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Number of rows : 8

N Identifier Otype ICRS (J2000)
RA
ICRS (J2000)
DEC
Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2019
#notes
1 NGC 253 SyG 00 47 33.134 -25 17 19.68   8.03   6.94 8.1 ~ 2847 2
2 TMC-1 MoC 04 41 45.9 +25 41 27           ~ 1316 0
3 RAFGL 618 pA* 04 42 53.6245215366 +36 06 53.397219192   16.32   12.59   C-rich 941 0
4 NAME Horsehead Nebula DNe 05 40 59.0 -02 27 30           ~ 427 0
5 NAME Mon R2 HII 06 07 46.6 -06 22 59           ~ 631 2
6 M 82 IG 09 55 52.430 +69 40 46.93 9.61 9.30 8.41     ~ 5198 6
7 NAME Sgr B2 MoC 17 47 20.4 -28 23 07           ~ 1835 1
8 [DE95] LDN 1157 B1 out 20 39 11 +68 01.3           ~ 159 0

    Equat.    Gal    SGal    Ecl

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2019.09.23-12:33:58

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