The carbon monoxide abundance in interstellar clouds.
Abstract
The steady-state abundance of carbon monoxide in interstellar clouds is calculated as a function of optical depth, density, and temperature. The molecular reactions which lead to CO can be initiated by the following ion-molecule reactions: H(+) + O yields O(+) + H, C(+) + H2 yields CH2(+) + a photon, and H3(+) + C and O. As the ultraviolet radiation field is attenuated, C(+) is transformed primarily into CO and C I. There are characteristic column densities for the transition to CO corresponding to the optical depths for attenuating this field at different wavelengths. For thick, low-temperature clouds the attenuation of the fields which ionize carbon, sulfur, and heavy metals is important for CO production initiated by H3(+). Complete conversion to CO does not necessarily occur, and considerable neutral carbon may be expected even in optically thick clouds. Comparison of integrated column densities of CO with extinction are in reasonable agreement with observations.
- Publication:
-
The Astrophysical Journal
- Pub Date:
- June 1976
- DOI:
- 10.1086/154430
- Bibcode:
- 1976ApJ...206..699L
- Keywords:
-
- Abundance;
- Carbon Monoxide;
- Interstellar Matter;
- Ionic Reactions;
- Reaction Kinetics;
- Hydrogen Clouds;
- Molecular Excitation;
- Optical Thickness;
- Steady State;
- Ultraviolet Radiation;
- Astrophysics