Observations of the Lensed Quasar Q2237+0305 with CanariCam at GTC

Abstract

We present new mid-IR observations of the quadruply lensed quasar Q2237+0305 taken with CanariCam on the Gran Telescopio Canarias. Mid-IR emission by hot dust, unlike the optical and near-IR emission from the accretion disk, is unaffected by the interstellar medium (extinction/scattering) or stellar microlensing. We compare these "true" ratios to the (stellar) microlensed flux ratios observed in the optical/near-IR to constrain the structure of the quasar accretion disk. We find a half-light radius of R1/2=3.4-2.1+5.3 M /0.3\,M light-days at λrest=1736 , and an exponent for the temperature profile R λp of p=0.790.55, where p=4/3 for a standard thin-disk model. If we assume that the differences in the mid-IR flux ratios measured over the years are due to microlensing variability, we find a lower limit for the size of the mid-IR-emitting region of R1/2 200\, M /0.3\,M light-days. We also test for the presence of substructure/satellites by comparing the observed mid-IR flux ratios with those predicted from smooth lens models. We can explain the differences if the surface density fraction in satellites near the lensed images is α = 0.033-0.019+0.046 for a singular isothermal ellipsoid plus external shear mass model or α = 0.013-0.008+0.019 for a mass model combining ellipsoidal NFW and de Vaucouleurs profiles in an external shear.