Gravitationally Lensed Quasar Database

SDSSJ1332+0347

Pan-STARRS

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Gaia DR2

Image	G	BP	RP	BP-RP	parallax (mas)	pmra (mas)	pmdec (mas)	PMSIG	AEN	AEN sig	Source ID
1	19.762	19.309	18.110	1.199	0.519 ±0.785	-2.230 ±1.247	0.180 ±0.682	1.807	0.779	0.474	3712919517094042752
2	19.814	19.339	17.977	1.363	-1.343 ±1.362	2.763 ±2.444	2.936 ±1.381	2.408	6.733	29.288	3712919517094734592

Gaia DR1

Image	G	AEN	AEN sig	Source ID
1	19.614	1.092	1.517	3712919517094042752
2	19.638	7.186	116.871	3712919517094042880

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
SDSSJ1332+0347	203.09425	3.79442	64.	0.932	1.438	0.191	1.12	2	3712	2	2	NED Link	SDSS DR14 Link	PanSTARRS Link	DECaLS	GDR2 cutout	WISE model	WISE	FIRST			Gaia	CFHT cutout	CFHT search	Morokuma et al. 2007

Relevant Publications

Jan 2007: Discovery of a Gravitationally Lensed Quasar from the Sloan Digital Sky Survey: SDSS J133222.62+034739.9, Morokuma et al. 2007

Dec 2009: LSST Science Book, Version 2.0, LSST Science Collaboration et al. 2009

Feb 2012: Constraints on cosmological models from lens redshift data, Cao & Zhu 2012

Feb 2015: Constraining Cosmological Parameters with Image Separation Statistics of Gravitationally Lensed SDSS Quasars: Mean Image Separation and Likelihood Incorporating Lens Galaxy Brightness, Han & Park 2015

Jun 2015: X-ray Insights into the Nature of PHL 1811 Analogs and Weak Emission-line Quasars: Unification with a Geometrically Thick Accretion Disk?, Luo et al. 2015

Dec 2017: Gravitationally lensed quasars in Gaia: I. Resolving small-separation lenses, Lemon et al. 2017

Aug 2018: Gaia GraL: Gaia DR2 gravitational lens systems. I. New quadruply imaged quasar candidates around known quasars, Krone-Martins et al. 2018

Mar 2019: LSST: From Science Drivers to Reference Design and Anticipated Data Products, Ivezić et al. 2019