Line emission is strongly dependent on the local environmental conditions in which the emitting tracers reside. In this work, we focus on modelling the CO emission from simulated giant molecular clouds (GMCs), and study the variations in the resulting line ratios arising from the emission from the J = 1–0, J = 2–1, and J = 3–2 transitions. We perform a set of smoothed particle hydrodynamics simulations with time-dependent chemistry, in which environmental conditions – including total cloud mass, density, size, velocity dispersion, metallicity, interstellar radiation field (ISRF), and the cosmic ray ionization rate (CRIR) – were systematically varied. The simulations were then post-processed using radiative transfer to produce synthe...
This is the final version of the article. Available from Oxford University Press via the DOI in this...
We present results from high-resolution three-dimensional simulations of turbulent interstellar gas ...
Relating the observed CO emission from giant molecular clouds (GMCs) to the underlying H2 column den...
Line emission is strongly dependent on the local environmental conditions in which the emitting tra...
The carbon monoxide (CO) rotational transition lines are the most common tracers of molecular gas wi...
We present a series of numerical simulations that explore how the ‘X-factor’, XCO – the conversion f...
A reliable estimate of the molecular gas content in galaxies plays a crucial role in determining the...
Theoretical and observational investigations have indicated that the abundance of carbon monoxide (C...
$Aims.$ We characterize the molecular-line emission of three clouds whose star-formation rates span ...
We present models of CO(1-0) emission from Milky-Way-mass galaxies at redshift zero in the FIRE-2 co...
We present models of CO(1–0) emission from Milky-Way-mass galaxies at redshift zero in the FIRE-2 co...
We present an analysis of giant molecular clouds (GMCs) within hydrodynamic simulations of isolated,...
The C+ ion is an important coolant of interstellar gas, and so the [C ii] fine structure line is fre...
Our understanding of how molecular clouds form in the interstellar medium (ISM) would be greatly hel...
We use UV measurements of interstellar CO toward nearby stars to calculate the density in the diffus...
This is the final version of the article. Available from Oxford University Press via the DOI in this...
We present results from high-resolution three-dimensional simulations of turbulent interstellar gas ...
Relating the observed CO emission from giant molecular clouds (GMCs) to the underlying H2 column den...
Line emission is strongly dependent on the local environmental conditions in which the emitting tra...
The carbon monoxide (CO) rotational transition lines are the most common tracers of molecular gas wi...
We present a series of numerical simulations that explore how the ‘X-factor’, XCO – the conversion f...
A reliable estimate of the molecular gas content in galaxies plays a crucial role in determining the...
Theoretical and observational investigations have indicated that the abundance of carbon monoxide (C...
$Aims.$ We characterize the molecular-line emission of three clouds whose star-formation rates span ...
We present models of CO(1-0) emission from Milky-Way-mass galaxies at redshift zero in the FIRE-2 co...
We present models of CO(1–0) emission from Milky-Way-mass galaxies at redshift zero in the FIRE-2 co...
We present an analysis of giant molecular clouds (GMCs) within hydrodynamic simulations of isolated,...
The C+ ion is an important coolant of interstellar gas, and so the [C ii] fine structure line is fre...
Our understanding of how molecular clouds form in the interstellar medium (ISM) would be greatly hel...
We use UV measurements of interstellar CO toward nearby stars to calculate the density in the diffus...
This is the final version of the article. Available from Oxford University Press via the DOI in this...
We present results from high-resolution three-dimensional simulations of turbulent interstellar gas ...
Relating the observed CO emission from giant molecular clouds (GMCs) to the underlying H2 column den...