We examine several different simplified approaches for modelling the chemistry of CO in 3D numerical simulations of turbulent molecular clouds. We compare the different models both by looking at the behaviour of integrated quantities such as the mean CO fraction or the cloud-averaged CO-to-H2 conversion factor, and also by studying the detailed distribution of CO as a function of gas density and visual extinction. In addition, we examine the extent to which the density and temperature distributions depend on our choice of chemical model. We find that all of the models predict the same density probability density function (PDF) and also agree very well on the form of the temperature PDF for temperatures T > 30 K, although at lower tempera...
The carbon monoxide (CO) rotational transition lines are the most common tracers of molecular gas wi...
We present an analysis of giant molecular clouds (GMCs) within hydrodynamic simulations of isolated,...
We study the relationship between the H2 and CO abundances in simulated molecular clouds using a ful...
We examine several different simplified approaches for modelling the chemistry of CO in 3D numerical...
We have analyzed the distributions of CO and temperature in a large suite of simulated mol...
Theoretical and observational investigations have indicated that the abundance of carbon monoxide (C...
The properties of synthetic CO emission from 3D simulations of forming molecular clouds are studied ...
We present results from high-resolution three-dimensional simulations of turbulent interstellar gas ...
We study the formation of CO molecules at the edge of dense molecular clouds. As shown by van Dishoe...
We use detailed numerical simulations of the coupled chemical, thermal and dynami-cal evolution of t...
We investigate how the X factor, the ratio of the molecular hydrogen column density (?) to velocity-...
A model for the structure of the massive molecular cloud G 34.3 + 0.2 is derived from extensive obse...
We use detailed numerical simulations of a turbulent molecular cloud to study the usefulness of the ...
We use 3d-pdr, a three-dimensional astrochemistry code for modeling photodissociation regions (PDRs)...
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 an analysis of giant molecular clouds (GMCs) within hydrodynamic simulations of isolated,...
We study the relationship between the H2 and CO abundances in simulated molecular clouds using a ful...
We examine several different simplified approaches for modelling the chemistry of CO in 3D numerical...
We have analyzed the distributions of CO and temperature in a large suite of simulated mol...
Theoretical and observational investigations have indicated that the abundance of carbon monoxide (C...
The properties of synthetic CO emission from 3D simulations of forming molecular clouds are studied ...
We present results from high-resolution three-dimensional simulations of turbulent interstellar gas ...
We study the formation of CO molecules at the edge of dense molecular clouds. As shown by van Dishoe...
We use detailed numerical simulations of the coupled chemical, thermal and dynami-cal evolution of t...
We investigate how the X factor, the ratio of the molecular hydrogen column density (?) to velocity-...
A model for the structure of the massive molecular cloud G 34.3 + 0.2 is derived from extensive obse...
We use detailed numerical simulations of a turbulent molecular cloud to study the usefulness of the ...
We use 3d-pdr, a three-dimensional astrochemistry code for modeling photodissociation regions (PDRs)...
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 an analysis of giant molecular clouds (GMCs) within hydrodynamic simulations of isolated,...
We study the relationship between the H2 and CO abundances in simulated molecular clouds using a ful...