We present a census of z(abs) < 2, intrinsic (those showing partial coverage)
and associated z(abs) ~ z(em) quasar absorption-line systems detected in the
Hubble Space Telescope archive of Space Telescope Imaging Spectrograph echelle
spectra. This work complements the Misawa et al. (2007) survey of 2 < z(em) < 4
quasars that selects systems using similar techniques. We confirm the existence
of so-called "strong N V" intrinsic systems (where the equivalent width of H I
Ly alpha is small compared to N V 1238) presented in that work, but find no
convincing cases of "strong C IV" intrinsic systems at low redshift/luminosity.
Moreover, we also report on the existence of "strong O VI" systems. From a
comparison of partial coverage results as a function of ion, we conclude that
systems selected by the N V ion have the highest probability of being
intrinsic. By contrast, the C IV and O VI ions are poor selectors. Of the 30 O
VI systems tested, only two of the systems in the spectrum on 3C 351 show
convincing evidence for partial coverage. However, there is a 3-sigma excess in
the number of absorbers near the quasar redshift (|Delta v| <= 5000 km/s) over
absorbers at large redshift differences. In at least two cases, the associated
O VI systems are known not to arise close to the accretion disk of the quasar.
Description
[1307.6799] A Census of Quasar-Intrinsic Absorption in the Hubble Space Telescope Archive: Systems from High Resolution Echelle Spectra
%0 Generic
%1 ganguly2013census
%A Ganguly, Rajib
%A Lynch, Ryan S.
%A Charlton, Jane C.
%A Eracleous, Michael
%A Tripp, Todd M.
%A Palma, Christopher
%A Sembach, Kenneth R.
%A Misawa, Toru
%A Masiero, Joseph R.
%A Milutinovic, Nikola
%A Lackey, Benjamin D.
%A Jones, Therese M.
%D 2013
%K als qso
%T A Census of Quasar-Intrinsic Absorption in the Hubble Space Telescope
Archive: Systems from High Resolution Echelle Spectra
%U http://arxiv.org/abs/1307.6799
%X We present a census of z(abs) < 2, intrinsic (those showing partial coverage)
and associated z(abs) ~ z(em) quasar absorption-line systems detected in the
Hubble Space Telescope archive of Space Telescope Imaging Spectrograph echelle
spectra. This work complements the Misawa et al. (2007) survey of 2 < z(em) < 4
quasars that selects systems using similar techniques. We confirm the existence
of so-called "strong N V" intrinsic systems (where the equivalent width of H I
Ly alpha is small compared to N V 1238) presented in that work, but find no
convincing cases of "strong C IV" intrinsic systems at low redshift/luminosity.
Moreover, we also report on the existence of "strong O VI" systems. From a
comparison of partial coverage results as a function of ion, we conclude that
systems selected by the N V ion have the highest probability of being
intrinsic. By contrast, the C IV and O VI ions are poor selectors. Of the 30 O
VI systems tested, only two of the systems in the spectrum on 3C 351 show
convincing evidence for partial coverage. However, there is a 3-sigma excess in
the number of absorbers near the quasar redshift (|Delta v| <= 5000 km/s) over
absorbers at large redshift differences. In at least two cases, the associated
O VI systems are known not to arise close to the accretion disk of the quasar.
@misc{ganguly2013census,
abstract = {We present a census of z(abs) < 2, intrinsic (those showing partial coverage)
and associated [z(abs) ~ z(em)] quasar absorption-line systems detected in the
Hubble Space Telescope archive of Space Telescope Imaging Spectrograph echelle
spectra. This work complements the Misawa et al. (2007) survey of 2 < z(em) < 4
quasars that selects systems using similar techniques. We confirm the existence
of so-called "strong N V" intrinsic systems (where the equivalent width of H I
Ly alpha is small compared to N V 1238) presented in that work, but find no
convincing cases of "strong C IV" intrinsic systems at low redshift/luminosity.
Moreover, we also report on the existence of "strong O VI" systems. From a
comparison of partial coverage results as a function of ion, we conclude that
systems selected by the N V ion have the highest probability of being
intrinsic. By contrast, the C IV and O VI ions are poor selectors. Of the 30 O
VI systems tested, only two of the systems in the spectrum on 3C 351 show
convincing evidence for partial coverage. However, there is a 3-sigma excess in
the number of absorbers near the quasar redshift (|Delta v| <= 5000 km/s) over
absorbers at large redshift differences. In at least two cases, the associated
O VI systems are known not to arise close to the accretion disk of the quasar.},
added-at = {2013-07-26T23:52:37.000+0200},
author = {Ganguly, Rajib and Lynch, Ryan S. and Charlton, Jane C. and Eracleous, Michael and Tripp, Todd M. and Palma, Christopher and Sembach, Kenneth R. and Misawa, Toru and Masiero, Joseph R. and Milutinovic, Nikola and Lackey, Benjamin D. and Jones, Therese M.},
biburl = {https://www.bibsonomy.org/bibtex/2bebbfa40574eef345532ff3f0979c133/miki},
description = {[1307.6799] A Census of Quasar-Intrinsic Absorption in the Hubble Space Telescope Archive: Systems from High Resolution Echelle Spectra},
interhash = {f60af0e244e4aad4df1f31a2f13b175f},
intrahash = {bebbfa40574eef345532ff3f0979c133},
keywords = {als qso},
note = {cite arxiv:1307.6799Comment: 40 pages, including 4 tables, and 49 figures; accepted for publication in MNRAS},
timestamp = {2013-07-26T23:52:38.000+0200},
title = {A Census of Quasar-Intrinsic Absorption in the Hubble Space Telescope
Archive: Systems from High Resolution Echelle Spectra},
url = {http://arxiv.org/abs/1307.6799},
year = 2013
}