Luminous HC3N line emission in NGC4418 - buried AGN or nascent starburst?
S. Aalto, R. Monje, S. Martin
TL;DR
This study uses IRAM 30m observations to analyze molecular line emissions in NGC4418, suggesting a young starburst with dense, warm gas and limited AGN influence, based on luminous HC3N emission and molecular line ratios.
Contribution
First detailed molecular line analysis of NGC4418 revealing insights into its starburst activity and molecular environment, challenging the necessity of an active galactic nucleus.
Findings
HC3N emission indicates dense, star-forming gas
Line ratios suggest a young starburst rather than AGN dominance
HC3N luminosity aligns with dense, warm star-forming regions
Abstract
IRAM 30m observations reveal that the deeply obscured IR-luminous galaxy NGC4418 has a rich molecular chemistry - including unusually luminous HC3N line emission. We furthermore detect: ortho-H2CO 2-1, 3-2; CN 1-0, 2-1; HCO+, 1-0. 3-2, HCN 3-2, HNC 1-0, 3-2 (and tentatively OCS 12-11). The HCN, HCO+, H2CO and CN line emission can be fitted to densities of n=5 x 10E4 - 10E5 cm-3 and gas temperatures Tk=80-150 K. Both HNC and HC3N are, however, significantly more excited than the other species which requires higher gas densities - or radiative excitation through e.g. mid-IR pumping. The HCN line intensity is fainter than that of HCO+ and HNC for the 3-2 transition, in contrast to previous findings for the 1-0 lines where the HCN emission is the most luminous. We tentatively suggest that the observed molecular line emission is consistent with a young starburst, where the emission can be…
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Taxonomy
TopicsStellar, planetary, and galactic studies