000 | 02569nam a2200181Ia 4500 | ||
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_c8646 _d8646 |
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005 | 20201230095835.0 | ||
008 | 170209s9999 xx 000 0 und d | ||
020 | _a9789384052126 | ||
041 | _aeng | ||
082 |
_a378.54 _bINT |
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245 |
_aInternational recognition of educational qualifications: _ba practical approach / |
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260 |
_bBloomsbury, _c2014. _aNew Delhi: |
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300 | _a2v. | ||
505 | _a1.International recognition of educational qualifications-- 2.International recognition of professional qualifications-- 3.Harmonization in accreditation practices-- 4.Bridging academia and Industry-- 5.Outcome assessment tools | ||
520 | _aWe present low-resolution 5.5-35 μm spectra for 103 galaxies from the 12 μm Seyfert sample, a complete unbiased 12 μm flux limited sample of local Seyfert galaxies selected from the IRAS Faint Source Catalog, obtained with the Infrared Spectrograph (IRS) on-board Spitzer Space Telescope. For 70 of the sources observed in the IRS mapping mode, uniformly extracted nuclear spectra are presented for the first time. We performed an analysis of the continuum emission, the strength of the polycyclic aromatic hydrocarbon (PAH) and astronomical silicate features of the sources. We find that on average, the 15-30 μm slope of the continuum is (α15-30) = -0.85 ± 0.61 for Seyfert 1s and -1.53 ± 0.84 for Seyfert 2s, and there is substantial scatter in each type. Moreover, nearly 32% of the Seyfert 1s, and 9% of the Seyfert 2s, display a peak in the mid-infrared spectrum at 20 μm, which is attributed to an additional hot dust component. The PAH equivalent width decreases with increasing dust temperature, as indicated by the global infrared color of the host galaxies. However, no statistical difference in PAH equivalent width is detected between the two Seyfert types, 1 and 2, of the same bolometric luminosity. The silicate features at 9.7 and 18 μm in Seyfert 1 galaxies are rather weak, while Seyfert 2s are more likely to display strong silicate absorption. Those Seyfert 2s with the highest silicate absorption also have high infrared luminosity and high absorption (hydrogen column density NH > 1023 cm-2) as measured from the X-rays. Finally, we propose a new method to estimate the active galactic nucleus contribution to the integrated 12 μm galaxy emission, by subtracting the 'star formation component in the Seyfert galaxies, making use of the tight correlation between PAH 11.2 μm luminosity and 12 μm luminosity for star-forming galaxies. | ||
650 |
_aHigher education _936320 |
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942 | _cBK |