67 research outputs found
Optical integral field spectroscopy of the extended line emission around six radio-loud quasars
We present integral field spectroscopy of a small sample of radio-loud
quasars at intermediate redshift (0.26<z<0.60), most of which are associated
with large radio sources. All have oxygen line emission extended over tens of
kiloparcsecs, and these nebulae display a diverse range in both morphology and
kinematic behaviour. Two quasars show 'plumes' of extended line emission, two
show a clumpy structure and a further one shows a smooth distribution. There is
no clear pattern with regard to the distribution of the ionized gas in relation
to the radio source axis; the extended emission-line regions are found both
parallel and perpendicular - and also totally unrelated to - the radio axis.
The velocity structure of the ionized gas ranges from essentially static to
apparent smooth rotation, and in two cases, show a clear association with the
radio source. Given the disparity in properties, the nebulae all show a
surprisingly similar ionization state, as measured by the extended lines of
[OII] and [OIII]. Assuming the gas is ionized by at least the nearby quasar
nucleus, we use the emission line ratios to infer a pressure in the ionized
gas; in all cases we find it to be at high pressure, suggesting confinement by
an external (probably intracluster) medium.Comment: 14 pages, 18 figures, 10 of which are presented separately; accepted
for publication in MNRA
Precision Photometry for Q0957+561 Images A and B
Since the persuasive determination of the time-delay in Q0957+561, much
interest has centered around shifting and subtracting the A and B light-curves
to look for residuals due to microlensing. Solar mass objects in the lens
galaxy produce variations on timescales of decades, with amplitudes of a few
tenths of a magnitude, but MACHO's (with masses of order to
) produce variations at only the 5% level. To detect such small
variations, highly precise photometry is required.
To that end, we have used 200 observations over three nights to examine the
effects of seeing on the light-curves. We have determined that seeing itself
can be responsible for correlated 5% variations in the light-curves of A and B.
We have found, however, that these effects can be accurately removed, by
subtracting the light from the lens galaxy, and by correcting for cross
contamination of light between the closely juxtaposed A and B images. We find
that these corrections improve the variations due to seeing from 5% to a level
only marginally detectable over photon shot noise (0.5%).Comment: 21 Pages with 9 PostScript figures, AASTeX 4 (preprint style
Magnification Ratio of the Fluctuating Light in Gravitational Lens 0957+561
Radio observations establish the B/A magnification ratio of gravitational
lens 0957+561 at about 0.75. Yet, for more than 15 years, the optical
magnfication ratio has been between 0.9 and 1.12. The accepted explanation is
microlensing of the optical source. However, this explanation is mildly
discordant with (i) the relative constancy of the optical ratio, and (ii)
recent data indicating possible non-achromaticity in the ratio. To study these
issues, we develop a statistical formalism for separately measuring, in a
unified manner, the magnification ratio of the fluctuating and constant parts
of the light curve. Applying the formalism to the published data of Kundi\'c et
al. (1997), we find that the magnification ratios of fluctuating parts in both
the g and r colors agrees with the magnification ratio of the constant part in
g-band, and tends to disagree with the r-band value. One explanation could be
about 0.1 mag of consistently unsubtracted r light from the lensing galaxy G1,
which seems unlikely. Another could be that 0957+561 is approaching a caustic
in the microlensing pattern.Comment: 12 pages including 1 PostScript figur
On the measurement of the Hubble constant in a local low-density universe
Astrophysical observations indicate that the ``Local Universe" has a
relatively lower matter density () than the predictions of the
standard inflation cosmology and the large-scale motions of galaxies which
provide a mean mass density to be very close to unity. In such a local
underdense region the Hubble expansion may not be representative of the global
behaviour. Utilizing an underdense sphere embedded in a flat universe as the
model of our ``Local Universe", we show that the local Hubble constant would be
1.2 -- 1.4 times larger than the global value on scale of Mpc,
depending on the variation of . This may account for the recent
measurements of the unpleasantly large Hubble constant of 80 km/s/Mpc
using the Cepheid variables in the Virgo cluster and the relative distance
between Virgo and Coma cluster and removes the resulted apparent paradox of the
age of our universe.Comment: 9 pages, Latex file, 3 figures available by reques
Spectroscopic mapping of the quasar 3C 48 at sub-arcsec resolution
Wetensch. publicatieFaculteit der Wiskunde en Natuurwetenschappe
Bidimensional spectroscopy of double galaxies. II. MKN 789, UGC 4085, UGC 3995
Wetensch. publicatieFaculteit der Wiskunde en Natuurwetenschappe
X-ray Detection of the Primary Lens Galaxy Cluster of the Gravitational Lens System Q0957+561
Analysis of several recent ROSAT HRI observations of the gravitationally
lensed system Q0957+561 has led to the detection at the 3sigma level of the
cluster lens containing the primary galaxy G1. The total mass was estimated by
applying the equation of hydrostatic equilibrium to the detected hot
intracluster gas for a range of cluster core radii, cluster sizes and for
different values of the Hubble constant. X-ray estimates of the lensing cluster
mass provide a means to determine the cluster contribution to the deflection of
rays originating from the quasar Q0957+561. The present mass estimates were
used to evaluate the convergence parameter kappa, the ratio of the local
surface mass density of the cluster to the critical surface mass density for
lensing. The convergence parameter, kappa, calculated in the vicinity of the
lensed images, was found to range between 0.07 and 0.21, depending on the
assumed cluster core radius and cluster extent. This range of uncertainty in
kappa does not include possible systematic errors arising from the estimation
of the cluster temperature through the use of the cluster
luminosity-temperature relation and the assumption of spherical symmetry of the
cluster gas. Applying this range of values of kappa to the lensing model of
Grogin & Narayan (1996) for Q0957+561 but not accounting for uncertainties in
that model yields a range of values for the Hubble constant:67<H_0<82 km s^-1
Mpc^-1, for a time delay of 1.1 years.Comment: Accepted for publication in ApJ, 25 pages, 9 figure
The geometry of the quadruply imaged quasar PG 1115+080; implications for Ho
Time delay measurements have recently been reported for the lensed quasar PG
1115+080. These measurements can be used to derive Ho, but only if we can
constrain the lensing potential. We have applied a recently developed
deconvolution technique to analyse sub-arcsecond I band images of PG 1115+080,
obtained at the Nordic Optical Telescope (NOT) and the Canada France Hawaii
Telescope (CFHT). The high performance of the deconvolution code allows us to
derive precise positions and magnitudes for the four lensed images of the
quasar, as well as for the lensing galaxy. The new measurement of the galaxy
position improves its precision by a factor of 3 and thus strengthens the
constraints on the lensing potential. With the new data, a range of models
incorporating some of the plausible systematic uncertainties yields Ho = 53
(+10/-7) km/s/mpc.Comment: 4 pages, LaTex file + postscript figures, Accepted for publication in
AA Letter
A Large Brightness Enhancement of the QSO 0957+561 A Component
We report an increase of more than 0.2 mag in the optical brightness of the
leading image (A) of the gravitational lens Q0957+561, detected during the
09/2000 -- 06/2001 monitoring campaign (2001 observing season). The brightening
is similar to or even greater than the largest change ever detected during the
20 years of monitoring of this system. We discuss two different provisional
explanations to this event: intrinsic source variability or microlensing
(either short timescale microlensing or cessation of the historical
microlensing). An exhaustive photometric monitoring of Q0957+561 is needed
until summer of 2002 and during 2003 to discriminate between these
possibilities.Comment: 13 pages including 3 figures and 1 table. Accepted for publication in
ApJ Let
A Robust Determination of the Time Delay in 0957+561A,B and a Measurement of the Global Value of Hubble's Constant
Photometric monitoring of the gravitational lens system 0957+561A,B in the g
and r bands with the Apache Point Observatory (APO) 3.5 m telescope during 1996
shows a sharp g band event in the trailing (B) image light curve at the precise
time predicted from the observation of an event during 1995 in the leading (A)
image with a delay of 415 days. This success confirms the "short delay," and
the lack of any feature at a delay near 540 days rejects the "long delay" for
this system, resolving a long-standing controversy. A series of statistical
analyses of our light curve data yield a best fit delay of 417 +/- 3 days (95%
confidence interval). Recent improvements in the modeling of the lens system
(consisting of a galaxy and cluster) allow us to derive a value of the global
(at z = 0.36) value of Hubble's constant H_0 using Refsdal's method, a simple
and direct distance determination based on securely understood physics and
geometry. The result is H_0 = 63 +/- 12 km/s/Mpc (for Omega = 1) where this 95%
confidence interval is dominated by remaining lens model uncertainties.Comment: accepted by ApJ, AASTeX 4.0 preprint, 4 PostScript figure
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