Gravitationally Lensed Quasar Database

SDSSJ1330+1810

Pan-STARRS

gri

riz

izY

g

r

i

z

Y

HST

F160W

F475X

F814W

Gaia DR2

Image	G	BP	RP	BP-RP	parallax (mas)	pmra (mas)	pmdec (mas)	PMSIG	AEN	AEN sig	Source ID
1	18.946	18.522	17.603	0.919	6.736 ±1.147	-1.020 ±1.806	13.584 ±0.795	17.091	6.232	148.104	3746665345725273472
2	20.020	nan	nan	nan	-1.067 ±0.689	1.094 ±1.310	1.638 ±0.593	2.888	1.910	2.754	3746665350016537088

Gaia DR1

Image	G	AEN	AEN sig	Source ID
1	18.753	7.063	106.777	3746665345725273472

Name	RA	DEC	b	W1-W2	z qso	z lens	sep.	N	Gaia density	GDR1 count	GDR2 count	NED	SDSS DR14	PanSTARRS	DECaLS	Gaia cutout	WISE model	WISE	FIRST	NVSS	SUMSS	Gaia	CFHT cutout	CFHT search	Discovery
SDSSJ1330+1810	202.57772	18.17581	77.	1.092	1.393	0.373	1.76	4	3712	1	2	NED Link	SDSS DR14 Link	PanSTARRS Link	DECaLS	GDR2 cutout	WISE model	WISE	FIRST			Gaia	CFHT cutout	CFHT search	Oguri et al. 2008

Relevant Publications

Dec 2008: Mass models and environment of the new quadruply lensed quasar SDSS J1330+1810, Oguri et al. 2008

Feb 2010: Identifying Anomalies in Gravitational Lens Time Delays, Congdon, Keeton & Nordgren 2010

Jun 2010: Fold Lens Flux Anomalies: A Geometric Approach, Goldberg et al. 2010

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

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

Apr 2012: Investigating Mg II absorption in paired quasar sight-lines, Rogerson & Hall 2012

Nov 2013: Constraints on holographic cosmologies from strong lensing systems, Cárdenas et al. 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

Dec 2014: The effect of macromodel uncertainties on microlensing modelling of lensed quasars, Vernardos & Fluke 2014

00 2015: An Investigation of Radio-Quiet Quasars Using Gravitational Lensing, Stacey 2015

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

May 2016: Subaru Telescope adaptive optics observations of gravitationally lensed quasars in the Sloan Digital Sky Survey, Rusu et al. 2016

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

Mar 2019: Is every strong lens model unhappy in its own way? Uniform modelling of a sample of 13 quadruply+ imaged quasars, Shajib et al. 2019

Mar 2019: Gravitationally lensed quasars in Gaia - III. 22 new lensed quasars from Gaia data release 2, Lemon, Auger & McMahon 2019

May 2019: Even Simpler Modeling of Quadruply Lensed Quasars (and Random Quartets) Using Witt's Hyperbola, Schechter & Wynne 2019

Dec 2019: The STRong lensing Insights into the Dark Energy Survey (STRIDES) 2017/2018 follow-up campaign: Discovery of 10 lensed quasars and 10 quasar pairs, Lemon et al. 2019

Dec 2019: Double dark matter vision: twice the number of compact-source lenses with narrow-line lensing and the WFC3 grism, Nierenberg et al. 2019