Litcius/Paper detail

Photodissociation region diagnostics across galactic environments

Thomas G. Bisbas, Jonathan C. Tan, Kei Tanaka

2021Monthly Notices of the Royal Astronomical Society52 citationsDOIOpen Access PDF

Abstract

ABSTRACT We present three-dimensional astrochemical simulations and synthetic observations of magnetized, turbulent, self-gravitating molecular clouds. We explore various galactic interstellar medium environments, including cosmic ray ionization rates in the range of ζCR = 10−17–$10^{-14}\, {\rm s}^{-1}$, far-UV intensities in the range of G0 = 1–103 and metallicities in the range of Z = 0.1–$2\, {\rm Z}_{\odot }$. The simulations also probe a range of densities and levels of turbulence, including cases where the gas has undergone recent compression due to cloud–cloud collisions. We examine: (i) the column densities of carbon species across the cycle of C ii, C i, and CO, along with O i, in relation to the H i-to-H2 transition; (ii) the velocity-integrated emission of [C ii] 158 μm, [13C ii] 158 μm, [C i] 609 μm and 370 μm, [O i] 63 μm and 146 μm, and of the first ten 12CO rotational transitions; (iii) the corresponding Spectral Line Energy Distributions; (iv) the usage of [C ii] and [O i] 63 μm to describe the dynamical state of the clouds; (v) the behaviour of the most commonly used ratios between transitions of CO and [C i]; and (vi) the conversion factors for using CO and C i as H2-gas tracers. We find that enhanced cosmic ray energy densities enhance all aforementioned line intensities. At low metallicities, the emission of [C ii] is well connected with the H2 column, making it a promising new H2 tracer in metal-poor environments. The conversion factors of XCO and XC i depend on metallicity and the cosmic ray ionization rate, but not on FUV intensity. In the era of ALMA, SOFIA, and the forthcoming CCAT-prime telescope, our results can be used to understand better the behaviour of systems in a wide range of galactic and extragalactic environments.

Topics & Concepts

PhysicsMolecular cloudAstrophysicsInterstellar mediumIonizationCosmic rayLine (geometry)PhotodissociationInterstellar cloudAtomic carbonAtomic physicsRange (aeronautics)GalaxyAstrochemistryIonHydrogenStarsPhotochemistryMathematicsMaterials scienceQuantum mechanicsChemistryGeometryComposite materialAstrophysics and Star Formation StudiesStellar, planetary, and galactic studiesAtmospheric Ozone and Climate