Bibcode
Mediavilla, E.; Muñoz, J. A.; Kochanek, C. S.; Guerras, E.; Acosta-Pulido, J. A.; Falco, E.; Motta, V.; Arribas, S.; Manchado, A.; Mosquera, A.
Bibliographical reference
The Astrophysical Journal, Volume 730, Issue 1, article id. 16 (2011).
Advertised on:
3
2011
Journal
Citations
50
Refereed citations
50
Description
We derive the size and temperature profile of the accretion disk of the
lensed quasar SBS 0909+532 by measuring the wavelength dependence
(chromaticity) of the microlensing magnification produced by the stars
in the lens galaxy. After correcting for extinction using the flux
ratios of 14 emission lines, we observe a marked change in the B-A flux
ratio with wavelength, varying from -0.67 ± 0.05 mag at (rest
frame) ~1460 Å to -0.24 ± 0.07 mag at ~6560 Å. For
λ >~ 7000 Å both effects, extinction and microlensing,
look minimal. Simulations indicate that image B rather than A is
strongly microlensed. If we model the change in disk size from 1460
Å to 6560 Å using a Gaussian source (I vprop exp(-R
2/2r 2 s )) with a disk size scaling
with wavelength as rs vprop λ p , we find
rs = 7+5 -3 light-days at 1460 Å
and p = 0.9+0.6 -0.3 for uniform priors on
rs and p, and rs = 4+3 -3
light-days and p = 1.0+0.6 -0.4 for a logarithmic
prior on rs . The disk temperature profile T vprop R
-1/p is consistent with thin disk theory (T vprop R
-3/4), given the uncertainties. The estimates of
rs are also in agreement with the size inferred from thin
disk theory using the estimated black hole mass (M BH ~= 2
× 109 M sun) but not with the smaller size
estimated from thin disk theory and the optical flux. We also use the
flux ratios of the unmicrolensed emission lines to determine the
extinction curve of the dust in the lens galaxy, finding that it is
similar to that of the LMC2 Supershell.
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