The Close AGN Reference Survey (CARS): A comparison between sub-mm and optical AGN diagnostic diagrams

TL;DR

This study compares optical and sub-mm diagnostic diagrams in AGN host galaxies, finding general agreement and suggesting AGN influence on both ionized and dense molecular gas excitation.

Contribution

It provides the first direct comparison between optical BPT diagnostics and sub-mm dense gas line ratios in AGN, highlighting their potential for consistent AGN classification.

Findings

Dense gas emission detected in 3 of 5 AGN targets.

AGN can influence both ionized and dense molecular gas excitation.

Optical and sub-mm diagnostics generally agree in classifying AGN activity.

Abstract

The $L_{\rm IR}-L_{\rm HCN}$ relation suggests that there is a tight connection between dense gas and star formation. We use data from the Close AGN Reference Survey (CARS) to investigate the dense gas - star formation relation in AGN hosting galaxies, and the use of dense gas as an active galactic nuclei (AGN) diagnostic. Our sample contains five Type-1 (unobscured) AGN that were observed with the Atacama Large Millimeter/submillimeter Array (ALMA) with the aim to detect HCN(4-3), HCO$^+$(4-3) and CS(7-6). We detect the dense gas emission required for this analysis in 3 of the 5 targets. We find that despite the potential impact from the AGN on the line fluxes of these sources, they still follow the $L_{\rm IR}-L_{\rm HCN}$ relation. We then go on to test claims that the HCN/HCO+ and HCN/CS line ratios can be used as a tool to classify AGN in the sub-mm HCN diagram. We produce the classic ionised emission-line ratio diagnostics (the so-called BPT diagrams), using available CARS data from the Multi Unit Spectroscopic Explorer (MUSE). We then compare the BPT classification with the sub-mm classification made using the dense gas tracers. Where it was possible to complete the analysis we find general agreement between optical and sub-mm classified gas excitation mechanisms. This suggests that AGN can contribute to the excitation of both the low density gas in the warm ionised medium and the high density gas in molecular clouds simultaneously, perhaps through X-ray, cosmic ray or shock heating mechanisms.