SDSSJ1138+0314

Pan-STARRS
gri
riz
izY
g
r
i
z
Y

HST

CLEAR1L_F814W
F160W
F555W_CLEAR2L

Gaia DR2
ImageGBPRPBP-RPparallax (mas)pmra (mas)pmdec (mas)PMSIGAENAEN sigSource ID
119.683 19.047 18.433 0.614 -25.136 ±2.158 3.820 ±1.752 -13.161 ±1.555 8.742 3.667 9.033 3800591477621812096
Gaia DR1
ImageGAENAEN sigSource ID
119.691 3.451 6.108 3800591477621812096
NameRADECbW1-W2z qsoz lenssep.NGaia densityGDR1 countGDR2 countNEDSDSS DR14PanSTARRSDECaLSGaia cutoutWISE modelWISEFIRSTNVSSSUMSSGaiaCFHT cutoutCFHT searchDiscovery
SDSSJ1138+0314174.515543.2493960.0.8682.4380.4451.444453711NED LinkSDSS DR14 LinkPanSTARRS LinkDECaLSGDR2 cutoutWISE modelWISEFIRST
GaiaCFHT cutoutCFHT searchInada et al. 2008



Relevant Publications

Jun 2006: COSMOGRAIL: the COSmological MOnitoring of GRAvItational Lenses. III. Redshift of the lensing galaxy in eight gravitationally lensed quasars, Eigenbrod et al. 2006

Jul 2007: The Quasar Accretion Disk Size - Black Hole Mass Relation, Morgan et al. 2007

Dec 2007: How robust are the constraints on cosmology and galaxy evolution from the lens-redshift test?, Capelo & Natarajan 2007

Feb 2008: The Sloan Digital Sky Survey Quasar Lens Search. II. Statistical Lens Sample from the Third Data Release, Inada et al. 2008

Apr 2010: The Quasar Accretion Disk Size-Black Hole Mass Relation, Morgan et al. 2010

Jun 2010: Cosmic Evolution of Virial and Stellar Mass in Massive Early-type Galaxies, Lagattuta et al. 2010

Nov 2010: COSMOGRAIL: the COSmological MOnitoring of GRAvItational Lenses. VIII. Deconvolution of high resolution near-IR images and simple mass models for 7 gravitationally lensed quasars, Chantry, Sluse & Magain 2010

Feb 2011: Galaxy number counts and implications for strong lensing, Fassnacht, Koopmans & Wong 2011

Mar 2011: Sizes and Temperature Profiles of Quasar Accretion Disks from Chromatic Microlensing, Blackburne et al. 2011

Dec 2011: Black Hole Mass Estimates Based on C IV are Consistent with Those Based on the Balmer Lines, Assef et al. 2011

Jan 2012: X-Ray and Optical Flux Ratio Anomalies in Quadruply Lensed Quasars. II. Mapping the Dark Matter Content in Elliptical Galaxies, Pooley et al. 2012

Feb 2012: COSMOGRAIL: the COSmological MOnitoring of GRAvItational Lenses. X. Modeling based on high-precision astrometry of a sample of 25 lensed quasars: consequences for ellipticity, shear, and astrometric anomalies, Sluse et al. 2012

Mar 2012: The Fundamental Surface of quad lenses, Woldesenbet & Williams 2012

May 2012: VizieR Online Data Catalog: Spectra of 13 lensed quasars (Sluse+, 2012), Sluse et al. 2012

Aug 2012: Microlensing of the broad line region in 17 lensed quasars, Sluse et al. 2012

Dec 2012: Microlensing evidence for super-Eddington disc accretion in quasars, Abolmasov & Shakura 2012

Mar 2013: Gravitational lensing evidence against extended dark matter halos, Magain & Chantry 2013

Oct 2013: Magnified Views of Relativistic Outflows in Gravitationally Lensed mini-BALQSOs, Chartas 2013

Oct 2014: A Calibration of the Stellar Mass Fundamental Plane at z ~ 0.5 Using the Micro-lensing-induced Flux Ratio Anomalies of Macro-lensed Quasars, Schechter et al. 2014

Nov 2015: Observations of radio-quiet quasars at 10-mas resolution by use of gravitational lensing, Jackson et al. 2015

Jan 2016: Analysis of luminosity distributions and the shape parameters of strong gravitational lensing elliptical galaxies, Biernaux et al. 2016

Oct 2016: Magnification relations of quad lenses and applications on Einstein crosses, Chu et al. 2016

Aug 2017: Analysis of luminosity distributions of strong lensing galaxies: subtraction of diffuse lensed signal, Biernaux, Magain & Hauret 2017

May 2018: Gaia GraL II - Gaia DR2 Gravitational Lens Systems: The Known Multiply Imaged Quasars, Ducourant et al. 2018

Aug 2018: Robust modeling of quadruply lensed quasars (and random quartets) using Witt's hyperbola, Wynne & Schechter 2018