期刊
ASTRONOMY & ASTROPHYSICS
卷 492, 期 3, 页码 675-684出版社
EDP SCIENCES S A
DOI: 10.1051/0004-6361:200810571
关键词
galaxies: individual: M 82; galaxies: nuclei; galaxies: starburst; ISM: molecules; ISM: abundances; radio lines: galaxies
资金
- STFC [ST/F011687/1, PP/D001269/1] Funding Source: UKRI
- Science and Technology Facilities Council [PP/D001269/1, ST/F011687/1] Funding Source: researchfish
Context. The molecular gas composition in the inner 1 kpc disk of the starburst galaxy M 82 resembles that of Galactic Photon Dominated Regions (PDRs). In particular, large abundances of the reactive ions HOC+ and CO+ have been measured in the nucleus of this galaxy. Two explanations have been proposed for such high abundances: the influence of intense UV fields from massive stars, or a significant role of X-Rays. Aims. Our aim is to investigate the origin of the high abundances of reactive ions in M 82. Methods. We have completed our previous 30 m HOC+ J = 1 -> 0 observations with the higher excitation HCO+ and HOC+ J = 4 -> 3 and 3 -> 2 rotational lines. In addition, we have obtained with the IRAM Plateau de Bure Interferometer (PdBI) a 4 '' resolution map of the HOC+ emission in M 82, the first ever obtained in a Galactic or extragalactic source. Results. Our HOC+ interferometric image shows that the emission of the HOC+ 1 -> 0 line is mainly restricted to the nuclear disk, with the maxima towards the E and W molecular peaks. In addition, line excitation calculations imply that the HOC+ emission arises in dense gas (n >= 10(4) cm(-3)). Therefore, the HOC+ emission is arising in the dense PDRs embedded in the M 82 nuclear disk, rather than in the intercloud phase and/or wind. Conclusions. We have improved our previous chemical model of M 82 by (i) using the new version of the Meudon PDR code; (ii) updating the chemical network; and (iii) considering two different types of clouds (with different thickness) irradiated by the intense interstellar UV field (G(0) = 10(4) in units of the Habing field) prevailing in the nucleus of M 82. Most molecular observations (HCO+, HOC+, CO+, CN, HCN, H3O+) are well explained assuming that similar to 87% of the mass of the molecular gas is forming small clouds (A(v) = 5 mag) while only similar to 13% of the mass is in large molecular clouds (Av = 50 mag). Such a small number of large molecular clouds suggests that M 82 is an old starburst, where star formation has almost exhausted the molecular gas reservoir.
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