Please use this identifier to cite or link to this item: http://dspace.mediu.edu.my:8181/xmlui/handle/10261/2616
Title: The Excitation of N2H+ in Interstellar Molecular Clouds. I. Models
Keywords: Astrophysics
ISM: abundances
ISM: clouds
ISM: molecules
Line: formation
Line: profiles
Molecular processes
Radiative transfer
Publisher: American Astronomical Society
Description: We present large velocity gradient (LVG) and nonlocal radiative transfer calculations involving the rotational and hyperfine structure of the spectrum of N2H+, with collisional rate coefficients recently derived by us. The goal of this study is to check the validity of the assumptions made to treat the hyperfine structure and to study the physical mechanisms leading to the observed hyperfine anomalies. We find that the usual hypothesis of identical excitation temperatures for all hyperfine components of the –0 transition is not correct within the range of densities existing in cold dense cores, i.e., a few < a few 106 cm−3. This is due to different radiative trapping effects in the hyperfine components. Moreover, within this range of densities and considering the typical abundance of N2H+, the total opacity of rotational lines has to be derived taking into account the hyperfine structure. The error made when only considering the rotational energy structure can be as large as 100%. Using nonlocal models, we find that, due to saturation, hyperfine anomalies appear as soon as the total opacity of the –0 transition becomes larger than 20. Radiative scattering in less dense regions enhances these anomalies and particularly induces a differential increase of the excitation temperatures of the hyperfine components. This process is more effective for the transitions with the highest opacities for which emerging intensities are also reduced by self‐absorption effects. These effects are not as critical as in HCO+ or HCN, but should be taken into account when interpreting the spatial extent of the N2H+ emission in dark clouds.
Peer reviewed
URI: http://dspace.mediu.edu.my:8181/xmlui/handle/10261/2616
Other Identifiers: arXiv:astro-ph/0606479v1
The Astrophysical Journal, 648:461–471, 2006 September 1
http://hdl.handle.net/10261/2616
10.1086/505738
Appears in Collections:Digital Csic

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