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ALMA imaging of the cold molecular and dusty disk in the type 2 active nucleus of the Circinus galaxy

Authors :
Tristram, Konrad R. W.
Impellizzeri, C. M. Violette
Zhang, Zhi-Yu
Villard, Eric
Henkel, Christian
Viti, Serena
Burtscher, Leonard
Combes, Françoise
García-Burillo, Santiago
Martín, Sergio
Meisenheimer, Klaus
van der Werf, Paul P.
Source :
A&A 664, A142 (2022)
Publication Year :
2022

Abstract

We aim to shed light on the physical properties and kinematics of the molecular material in the nucleus of one of the closest type 2 active galaxies. To this end, we obtained high angular resolution ALMA observations of the nucleus of the Circinus galaxy. The observations map the emission at 350GHz and 690GHz with spatial resolutions of ~3.8pc and ~2.2pc, respectively. The continuum emission traces cold ($T\lesssim100$K) dust in a circumnuclear disk with spiral arms on scales of 25pc, plus a marginally resolved nuclear emission peak. The latter is not extended in polar direction as claimed based on earlier ALMA observations. A significant amount (of the order of 40%) of the 350GHz emission is not related to dust, but most likely free-free emission instead. We detect CO(3-2) and CO(6-5) as well as HCO$^+$(4-3), HCN(4-3), and CS(4-3). The CO emission is extended, showing a spiral pattern, similar to the extended dust emission. Towards the nucleus, CO is excited to higher transitions and its emission is self-absorbed, leading to an apparent hole in the CO(3-2) but not the CO(6-5) emission. On the other hand, the high gas density tracers HCO$^+$, HCN, and CS show a strong, yet unresolved (($\lesssim4$pc) concentration of the emission at the nucleus, pointing at a very small 'torus'. The kinematics are dominated by rotation and point at a geometrically thin disk down to the resolution limit of our observations. In contrast to several other AGNs, no HCN enhancement is found towards the nucleus. The Circinus nucleus is therefore composed of at least two distinct components: (1) an optically thin, warm outflow of ionised gas containing clouds of dust; and (2) a cold molecular and dusty disk. These findings support the most recent radiative transfer calculations of the obscuring structures in AGNs, which find a similar two-component structure. (Abridged)<br />Comment: Accepted for publication in A&A

Details

Database :
arXiv
Journal :
A&A 664, A142 (2022)
Publication Type :
Report
Accession number :
edsarx.2206.00782
Document Type :
Working Paper
Full Text :
https://doi.org/10.1051/0004-6361/202243535