M. Blanton et al., ULTRAVIOLET IMAGES OF THE GRAVITATIONALLY LENSED QUADRUPLE QUASAR Q2237-WFPC2(0305 WITH THE HST), Monthly Notices of the Royal Astronomical Society, 298(4), 1998, pp. 1223-1232
We present and analyse observations of the quadruple lensed quasar Q22
37+0305, obtained with the HST WFPC2 camera in the F336W and F300W fil
ters. 25 exposures were performed within 15 h real time on 1995 Novemb
er 3. On a time-scale of 3-4 h, we observe no variation in component A
greater than 0.02 mag. The other components remain constant over a pe
riod of 10h to within about 0.05 mag. In the final 5h there is some ev
idence (not conclusive) for variation of component D by about 0.1 mag.
The exposures indicate that component A is brighter than component B
by about 0.3 mag. Components C and D are fainter than component A by a
bout 1.3 and 1.4 mag respectively. Our results place an upper limit on
any fifth (central) component of 6.5 mag fainter than component A. We
determine the astrometric properties of the lens system, using only t
he exposures of the higher resolution Planetary Camera chip. We measur
e the relative distances of the four components with high accuracy. Ou
r values are systematically larger than those of other investigators (
by 0.1-2.0 per cent). We discuss the reasons why we believe our result
s are reliable. The F336W filter had been chosen for the observations
because it corresponds to the redshifted Ly alpha line of the quasar.
This filter might have allowed us to see extended Ly alpha emission fr
om the broad-line region (BLR) of the quasar as Lya: arcs, and hence t
o determine the physical size of the BLR. However, the quasar componen
ts seen in this filter are consistent with a point source. We conclude
that there cannot be any Lya: feature in the image plane brighter tha
n about 23.5 mag in F336W and further from the quasar core than 100 ma
s. According to a lensing model by Rix, Schieder & Bahcall, this would
preclude any such features in the source plane further than 20 mas (s
imilar to 100 h(-1) pc, assuming q(0) = 0.5) from the quasar core and
brighter than 25 mag before magnification.