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外文期刊>The Astrophysical journal
>SUBMILLIMETER ARRAY/PLATEAU DE BURE INTERFEROMETER MULTIPLE LINE OBSERVATIONS OF THE NEARBY SEYFERT 2 GALAXY NGC 1068: SHOCK-RELATED GAS KINEMATICS AND HEATING IN THE CENTRAL 100 pc?*
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SUBMILLIMETER ARRAY/PLATEAU DE BURE INTERFEROMETER MULTIPLE LINE OBSERVATIONS OF THE NEARBY SEYFERT 2 GALAXY NGC 1068: SHOCK-RELATED GAS KINEMATICS AND HEATING IN THE CENTRAL 100 pc?*
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机译:邻近SEYFERT 2 GALAXY NGC 1068的SUBRILLIMETER ARRAY / PUREAU DE BURE干涉仪多线观测:与冲击有关的气体运动学和100中央的加热情况?*
We present high angular resolution (05-20) observations of the millimeter continuum and the 12CO(J = 3-2), 13CO(J = 3-2), 13CO(J = 2-1), C18O(J = 2-1), HCN(J = 3-2), HCO+(J = 4-3), and HCO+(J = 3-2) line emission in the circumnuclear disk (r 100?pc) of the prototypical Seyfert 2 galaxy NGC?1068, carried out with the Submillimeter Array. We also include in our analysis new 13CO(J = 1-0) and improved 12CO(J = 2-1) observations of NGC?1068 at high angular resolution (10-20) and sensitivity, conducted with the Institute de Radioastronomie Millimetrique Plateau de Bure Interferometer. Based on the complex dynamics of the molecular gas emission indicating non-circular motions in the central ~100?pc, we propose a scenario in which part of the molecular gas in the circumnuclear disk of NGC?1068 is blown radially outward as a result of shocks. This shock scenario is further supported by quite warm (T?kin ≥ 200?K) and dense (n(H2)? 104?cm–3) gas constrained from observed molecular line ratios. The HCN abundance in the circumnuclear disk is found to be [HCN]/[12CO]?≈ 10–3.5. This is slightly higher than the abundances derived for Galactic and extragalactic star-forming/starbursting regions. This result lends further support to X-ray-enhanced HCN formation in the circumnuclear disk of NGC?1068 as suggested by earlier studies. The HCO+ abundance ([HCO+]/[12CO]?≈ 10–5) appears to be somewhat lower than that of Galactic and extragalactic star-forming/starbursting regions. When trying to fit the centimeter-to-millimeter continuum emission by different thermal and non-thermal processes, it appears that electron-scattered synchrotron emission yields the best results while thermal free-free emission seems to overpredict the millimeter continuum emission.
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