Dense molecular gas in the starburst nucleus of NGC 1808

TL;DR

This study uses ALMA observations to map dense molecular gas in NGC 1808's nucleus, revealing shock indicators, star formation activity, and dense gas properties in the circumnuclear disk and superwind.

Contribution

First detailed ALMA imaging of multiple dense gas tracers in NGC 1808's nucleus, analyzing gas density, temperature, and shock signatures in starburst and outflow regions.

Findings

Dense gas in the CND is warm and dense (~10^5 cm^-3, 20-100 K).

Enhanced HCN/HCO+ ratio indicates star formation activity.

Detection of dense gas tracers in the superwind confirms velocity gradients.

Abstract

Dense molecular gas tracers in the central 1 kpc region of the superwind galaxy NGC 1808 have been imaged by ALMA at a resolution of 1" (~50 pc). Integrated intensities and line intensity ratios of HCN (1-0), H$^{13}$CN (1-0), HCO$^+$ (1-0), H$^{13}$CO$^+$ (1-0), HOC$^+$ (1-0), HCO$^+$ (4-3), CS (2-1), C$_2$H (1-0), and previously detected CO (1-0) and CO (3-2) are presented. SiO (2-1) and HNCO (4-3) are detected toward the circumnuclear disk (CND), indicating the presence of shocked dense gas. There is evidence that an enhanced intensity ratio of HCN(1-0)/HCO$^+$(1-0) reflects star formation activity, possibly in terms of shock heating and electron excitation in the CND and a star-forming ring at radius ~300 pc. A non-LTE analysis indicates that the molecular gas traced by HCN, H$^{13}$CN, HCO$^+$, and H$^{13}$CO$^+$ in the CND is dense ($n_{\mathrm{H}_2}$~$10^5$ cm$^{-3}$) and warm (20 K$<T_\mathrm{k}$<100 K). The calculations yield a low average gas density of $n_{\mathrm{H}_2}$~$10^2\mathrm{-}10^3$ cm$^{-3}$ for a temperature of $T_\mathrm{k}\geq30$ K in the nuclear outflow. Dense gas tracers HCN (1-0), HCO$^+$ (1-0), CS (2-1), and C$_2$H (1-0) are detected for the first time in the superwind of NGC 1808, confirming the presence of a velocity gradient in the outflow direction.