BIB-VERSION:: AST-PP-v1.0
ID:: epreps.stsci//prep1201
ENTRY:: March 9, 1998
TITLE::  Broad Emission-Line Variability as a Constraint upon the Physical Conditions within the BLR of NGC 5548 
SUBTITLE:: 
AUTHOR:: Goad, Mike
AUTHOR:: Koratkar, Anuradha
AFFIL:: Space Telescope Science Institute    3700 San Martin Drive    Baltimore, MD 21218    USA
DATE:: December 1997
JOURNAL:: To appear in:  The Astrophysical Journal
SUBMITTED:: 17 March 1997
ACCEPTED:: 14 October 1997 
OTHER_ACCESS:: 
COPYRIGHT:: Copyright 1997 The Association of Universities for Research in Astronomy, Inc.  All Rights Reserved.
LANGUAGE:: English
ABSTRACT::

Using a Gaussian fitting procedure, we have constructed an accurate UV
narrow emission-line template spectrum for the Seyfert 1 galaxy
NGC 5548, from the low-state HST/FOS UV spectrum taken on 
July 5th
1992 with the 1.0 arc-second circular aperture. This template spectrum
is similar in form to that determined for the prototypical narrow-line
Seyfert 2 galaxy NGC 1068.  
<P>

The narrow emission-line template spectrum of NGC&nbsp;5548 has 
for the
first time enabled us to isolate the narrow and broad UV
emission-lines and thereby determine firm estimates for the
intensities of the broad emission-lines for both the low-state
spectrum, and the average HST/FOS archival spectrum obtained from the
intensive monitoring campaign undertaken by "AGN Watch" on April
19th 1993, when the continuum was a factor of ~4.8&nbsp;brighter.  A
comparison of the low-state and high-state spectra show that whilst 
the narrow UV emission-lines are non-variable over timescales of
~10&nbsp;months, the broad UV emission-lines exhibit large variations
in both their strength and shape.  By combining a photoionization code
with a robust global optimization routine, we have determined global
best-fit parameters for the "average" physical conditions within the
broad emission-line region gas for both the low and high-state
spectra.
<P>

By using a "best-guess" estimate for the shape of the ionizing
continuum of this source, we find that a single zone photoionization
model of the BLR cannot simultaneously fit both the emission-line
ratios of the strongest UV lines and their variability
timescales. However, the line ratios and variability timescales can be
reproduced if we assume a stratified BLR, <I>i.e.</I>, 
a BLR which has strong
gradients in density 
(N<FONT SIZE=-1><SUB>H</SUB></FONT>&nbsp;<IMG SRC="/science/preprints/Icons/propto.gif" WIDTH=12 HEIGHT=8 ALT="propto" ALIGN=baseline>&nbsp;1/r<FONT SIZE=-1><SUP>2</SUP></FONT>,
10<FONT SIZE=-1><SUP>11.3</SUP></FONT>-10<FONT SIZE=-1><SUP>10.0</SUP></FONT>). These models also suggest that the BLR gas
is in a moderately high state of ionization with log<FONT SIZE=-1><SUB>10</SUB></FONT>U ~-0.6 in the low-state spectrum, rising to ~0.0 in the
high-state.
<P>

We find that the observed differences in the broad emission-line
fluxes and their ratios, between the low and high-state spectra, are
not solely a consequence of changes in the ionizing continuum source
luminosity. Rather they imply in addition, a change in the spectral
energy distribution of the ionizing continuum, although changes in
either the covering fraction, or composition of the broad
emission-line region gas cannot necessarily be ruled out.
 <P>

By constructing a simple two-zone model for the high-ionization lines,
we find that in order to reproduce the observed line ratios and line
equivalent widths, the gas covering fraction for this source must
necessarily be high, ~38% at a radial distance of 2&nbsp;light-days,
and decreasing outward to ~32% at 10&nbsp;light-days. This is
considerably larger than the typical value of ~10% quoted for
AGN, derived from the incidence of Lyman edges in high redshift
quasars. Although the statistics for the incidence of Lyman edges in
Seyfert&nbsp;1 galaxies is poorly determined, our derived covering fraction
is broadly consistent with the 25% covering fraction estimate
obtained from observations with the Hopkins Ultraviolet Telescope
(HUT).


END:: epreps.stsci//prep1201