A sensitive APEX and ALMA CO(1-0), CO(2-1), CO(3-2), and [CI](1-0) spectral survey of 40 local (U)LIRGs

Abstract

We present a high sensitivity spectral line survey of CO(1-0), CO(2-1), CO(3-2) and [CI](1-0) in 40 local (ultra) luminous infrared galaxies ((U)LIRGs), all with previous Herschel OH119 μm observations. We use single-dish observations (PI and archival) conducted with APEX, complemented with ALMA and ACA data. We study the total emission and pay special attention to the extended low-surface brightness components. We find a tight correlation between low-J CO and [CI] line luminosities suggesting their emission arise from similar regions, at least when averaged over galactic scales. We estimate a median CO-to-H2 conversion factor of 1.7 0.5 M (K km s-1 pc2)-1 for ULIRGs, using [CI] as an independent tracer. We derive median galaxy-integrated CO line ratios (r21, r31 and r32), as well as rCICO, significantly higher than normal star forming galaxies, confirming the exceptional molecular gas properties of ULIRGs. We find that r21 and r32 are poor tracers of CO excitation in ULIRGs, while r31 shows a positive trend with LIR and SFR, and a negative trend with the H2 gas depletion timescales (τdep). When studying CO line ratios as a function of gas kinematics, we find a positive relation between r21 and σv, which can be explained by CO opacity effects. We find that the linewidths of [CI] lines are ~10% narrower than CO lines, which may suggest that the low optical depth of [CI] can challenge its detection in diffuse, low-surface brightness outflows, and so its use as a tracer of CO-dark H2 gas in these components. Finally, we find that higher LAGN are associated to longer τdep, consistent with the hypothesis that AGN feedback may reduce the efficiency of star formation.