The dual role of starburst and active galactic nuclei in driving extreme molecular outflows

Abstract

We report molecular gas observations of IRAS 20100-4156 and IRAS 03158+4227, two local ultraluminous infrared galaxies (ULIRGs) hosting some of the fastest and most massive molecular outflows known. Using ALMA and PdBI observations, we spatially resolve the CO(1-0) emission from the outflowing molecular gas in both and find maximum outflow velocities of v max 1600 and 1700 km/s for IRAS 20100-4156 and IRAS 03158+4227, respectively. We find total gas mass outflow rates of M OF 670 and 350 Msun/yr, respectively, corresponding to molecular gas depletion timescales τ dep OF 11 and 16 Myr. This is nearly 3 times shorter than the depletion timescales implied by star formation, τ dep SFR 33 and 46 Myr, respectively. To determine the outflow driving mechanism, we compare the starburst (L*) and AGN (L AGN) luminosities to the outflowing energy and momentum fluxes, using mid-infrared spectral decomposition to discern L AGN. Comparison to other molecular outflows in ULIRGs reveals that outflow properties correlate similarly with L* and L IR as with L AGN, indicating that AGN luminosity alone may not be a good tracer of feedback strength and that a combination of AGN and starburst activity may be driving the most powerful molecular outflows. We also detect the OH 1.667 GHz maser line from both sources and demonstrate its utility in detecting molecular outflows.