METAL-ENRICHED OUTFLOWS IN THE ULTRALUMINOUS INFRARED QUASAR Q1321+058
Quasar outflows may play important role in the evolution of its host galaxy and central black hole, and are most often studied in absorption lines. In this paper, we present a detailed study of multiple outflows in the obscured ultraluminous infrared quasar Q1321+058. The outflows reveal themselves...
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| Published in | The Astrophysical journal Vol. 702; no. 2 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
10.09.2009
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| Subjects | |
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| Abstract | Quasar outflows may play important role in the evolution of its host galaxy and central black hole, and are most often studied in absorption lines. In this paper, we present a detailed study of multiple outflows in the obscured ultraluminous infrared quasar Q1321+058. The outflows reveal themselves in the complex optical and ultraviolet (UV) emission-line spectrum, with a broad component blueshifted by 1650 km s{sup -1} and a narrow component by 360 km s{sup -1}, respectively. The higher velocity component shows ever strong N III] (N III]/C III] = 3.8 {+-} 0.3 and N III]/C IV = 0.53) and strong Si III] (Si III]/C III] {approx_equal} 1), in addition to strong [O III]{lambda}5007 and [Ne III]{lambda}3869 emission. A comparison of these line ratios with photoionization models suggests an overabundance of N and Si relative to C. The abundance pattern is consistent with a fast chemical enriching process associated with a recent starburst, triggered by a recent galaxy merger. The outflow extends to several tens to hundred parsecs from the quasar, and covers only a very small sky. We find that the outflow with line emitting gas is energetically insufficient to remove the interstellar medium of the host galaxy, but total kinetic energy may be much larger than suggested by the emission lines. The velocity range and the column density suggest that the outflow might be part of the low-ionization broad absorption line region as seen in a small class of quasars. The optical and UV continuum is starlight dominated and can be modeled with a young-aged (1 Myr) plus an intermediate-aged ({approx}0.5-1 Gyr) stellar populations, suggesting a fast building of the stellar mass in the host galaxy, consistent with the starburst-type metal abundances inferred from the high-velocity outflow spectrum. The broadband spectral energy distribution shows that it is an obscured quasar with its bulk emission in the middle infrared. The star formation rate, independently estimated from UV, far-infrared, and emission-line luminosity, is much lower than that is required for the co-evolution of the black hole and its host spheroid. |
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| AbstractList | Quasar outflows may play important role in the evolution of its host galaxy and central black hole, and are most often studied in absorption lines. In this paper, we present a detailed study of multiple outflows in the obscured ultraluminous infrared quasar Q1321+058. The outflows reveal themselves in the complex optical and ultraviolet (UV) emission-line spectrum, with a broad component blueshifted by 1650 km s{sup -1} and a narrow component by 360 km s{sup -1}, respectively. The higher velocity component shows ever strong N III] (N III]/C III] = 3.8 {+-} 0.3 and N III]/C IV = 0.53) and strong Si III] (Si III]/C III] {approx_equal} 1), in addition to strong [O III]{lambda}5007 and [Ne III]{lambda}3869 emission. A comparison of these line ratios with photoionization models suggests an overabundance of N and Si relative to C. The abundance pattern is consistent with a fast chemical enriching process associated with a recent starburst, triggered by a recent galaxy merger. The outflow extends to several tens to hundred parsecs from the quasar, and covers only a very small sky. We find that the outflow with line emitting gas is energetically insufficient to remove the interstellar medium of the host galaxy, but total kinetic energy may be much larger than suggested by the emission lines. The velocity range and the column density suggest that the outflow might be part of the low-ionization broad absorption line region as seen in a small class of quasars. The optical and UV continuum is starlight dominated and can be modeled with a young-aged (1 Myr) plus an intermediate-aged ({approx}0.5-1 Gyr) stellar populations, suggesting a fast building of the stellar mass in the host galaxy, consistent with the starburst-type metal abundances inferred from the high-velocity outflow spectrum. The broadband spectral energy distribution shows that it is an obscured quasar with its bulk emission in the middle infrared. The star formation rate, independently estimated from UV, far-infrared, and emission-line luminosity, is much lower than that is required for the co-evolution of the black hole and its host spheroid. |
| Author | Zhou Hongyan Yuan Weimin Shan Hongguang Dong Xiaobo Lu HongLin Wang Tinggui |
| Author_xml | – sequence: 1 fullname: Wang Tinggui – sequence: 2 fullname: Zhou Hongyan – sequence: 3 fullname: Lu HongLin – sequence: 4 fullname: Dong Xiaobo organization: Key Laboratory for Research in Galaxies and Cosmology, University of Science and Technology of China, Chinese Academy of Sciences, Hefei, Anhui, 230026 (China) – sequence: 5 fullname: Yuan Weimin – sequence: 6 fullname: Shan Hongguang organization: Yunnan Astronomical Observatory, National Astronomical Observatories, Chinese Academy of Sciences, P.O. Box 110, Kunming, Yunnan 650011 (China) |
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| Snippet | Quasar outflows may play important role in the evolution of its host galaxy and central black hole, and are most often studied in absorption lines. In this... |
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| SubjectTerms | ABSORPTION ABUNDANCE ASTROPHYSICS, COSMOLOGY AND ASTRONOMY BLACK HOLES EMISSION ENERGY SPECTRA GALAXIES GALAXY NUCLEI KINETIC ENERGY LUMINOSITY MASS METALS PHOTOIONIZATION QUASARS STARS ULTRAVIOLET RADIATION |
| Title | METAL-ENRICHED OUTFLOWS IN THE ULTRALUMINOUS INFRARED QUASAR Q1321+058 |
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