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Ultraviolet Line-Continuum properties of Seyfert 1 galaxies and quasars

Published online by Cambridge University Press:  25 July 2014

Vijayakumar H. Doddamani
Affiliation:
Dept. of Physics, Bangalore University, Bangalore-560056, India email: drvkdmani@gmail.com
P. Vedavathi
Affiliation:
Dept. of Physics, Bangalore University, Bangalore-560056, India email: drvkdmani@gmail.com
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Abstract

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Active galaxies are most luminous objects in the universe whose spectra are characterized by both permitted and forbidden emission line features. The spectra of Seyfert 1 galaxies and quasars contain strong and broad emission lines of wide ranging ionization potentials. The velocity widths of the lines range from a minimum of ≈ 500 km/s for narrow lines to a maximum of 20,000 km/sec for broad lines. The UV spectra of the active galaxies contain strong and broad emission lines such as Lyα, NV, SiIV, OIV], CIV, CIII] and MgII lines. The widths of the broad lines are attributed to the differential doppler shifts of the emission lines due to the bulk motions of individual clumpy gas clouds in the BLR region. We have anlysed UV spectra of Seyfert 1 galaxies and quasars from IUE satellite archival database to understand the nature of dependence of the emission line properties with the underlying UV continuum. We have undertaken line luminosity correlation studies for Lyα and CIV lines with their underlying UV continuum luminosity at 1125Å, 1425Å & 1625Å. The IUE archival spectra have been reduced for galactic reddening using the E(B-V) and NHI values published continuum luminosity has been observed at 1125Å, 1425Å & 1625Å. The Lyα line line has exhibited strongest linear correlation wavelengths while CIV line has shown at 1425Å and 2625Å wavelengths. These results are empirically consistent with the predictions of the general multi-component photo-ionization models suggesting that the central strong UV continuum has been reprocessed by the clumpy gas clouds of the broad emission region (BLR). A detailed account of the data reduction, UV flux measurement and the significance of line-luminosity correlations are discussed in this paper.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2014 

References

Bogess, A.et al. 1978, Nature 275 372 & 377Google Scholar
Schelgel, D. J. 1998, ApJ 500, 525CrossRefGoogle Scholar
Murphy, E. M. 1996, ApJ 105, 369Google Scholar
Lockman, F. J. 1995, ApJ 302, 342Google Scholar
Kinney, A. L. 1999, ApJS 74, 347Google Scholar
O'Brien, P. T.et al. 1998, MNRAS 233, 845Google Scholar
Doddamani, Vijayakumar. H., Anandram, M. N., & Ghosh, K. K. 2001, in: UV Emission line studies of ESOB113 and MRK150, In the Proceedings of the International Conference on “Multicolour Universe” held at TIFR, Mumbai, 11-15, Sep 2001, p. 161Google Scholar