The molecular gas in Luminous Infrared Galaxies II: extreme physical conditions, and their effects on the Xco factor

Abstract

In this work we conclude the analysis of our CO line survey of Luminous Infrared Galaxies (LIRGs: LIR>=1011Lsol) in the local Universe (Paper\,I), by focusing on the influence of their average ISM properties on the total molecular gas mass estimates via the so-called Xco=M(H2)/Lco,1-0 factor. One-phase radiative transfer models of the global CO Spectral Line Energy Distributions (SLEDs) yield an Xco distribution with: <Xco>(0.6+/-0.2) Msol(K km s-1 pc2)-1 over a significant range of average gas densities, temperatures and dynamical states. The latter emerges as the most important parameter in determining Xco, with unbound states yielding low values and self-gravitating states the highest ones. Nevertheless in many (U)LIRGs where available higher-J CO lines (J=3--2, 4--3, and/or J=6--5) or HCN line data from the literature allow a separate assessment of the gas mass at high densities (>=104 cm-3) rather than a simple one-phase analysis we find that near-Galactic Xco (3-6)\, Msol\,(K\,km-1\,pc2)-1 values become possible. We further show that in the highly turbulent molecular gas in ULIRGs a high-density component will be common and can be massive enough for its high Xco to dominate the average value for the entire galaxy. ......... ...this may have thus resulted to systematic underestimates of molecular gas mass in ULIRGs.