SDSS J094656.68+100652.8 , the SIMBAD biblio

SDSS J094656.68+100652.8 , the SIMBAD biblio (31 results) C.D.S. - SIMBAD4 rel 1.8 - 2022.12.07CET00:02:17

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in a table in teXt, Caption, ... Nb occurence Nb objects in ref Citations
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Title First 3 Authors
2008ApJ...677.1046G 7 5 76 The Sloan lens ACS survey. VI. Discovery and analysis of a double Einstein ring. GAVAZZI R., TREU T., KOOPMANS L.V.E., et al.
2008ApJ...682..964B viz 15       D               2 394 166 The Sloan lens ACS survey. V. The full ACS strong-lens sample. BOLTON A.S., BURLES S., KOOPMANS L.V.E., et al.
2008MNRAS.391..668W 1 2 7 On multiple Einstein rings. WERNER M.C., AN J. and EVANS N.W.
2009ApJ...690..670T viz 15       D               1 73 73 The Sloan Lens ACS survey. VIII. The relation between environment and internal structure of early-type galaxies. TREU T., GAVAZZI R., GORECKI A., et al.
2009A&A...501..461G viz 15       D               1 171 52 Photometric mass and mass decomposition in early-type lens galaxies. GRILLO C., GOBAT R., LOMBARDI M., et al.
2009A&A...501..475T 193           X         5 4 19 The mass profile of early-type galaxies in overdense environments: the case of the double source-plane gravitational lens SL2SJ02176-0513. TU H., GAVAZZI R., LIMOUSIN M., et al.
2009ApJ...705.1099A viz 15       D               1 263 115 The Sloan lens ACS survey. IX. Colors, lensing, and stellar masses of early-type galaxies. AUGER M.W., TREU T., BOLTON A.S., et al.
2010ApJ...711..201S 44           X         1 17 224 Dissecting the gravitational lens B1608+656. II. Precision measurements of the Hubble constant, spatial curvature, and the dark energy equation of state. SUYU S.H., MARSHALL P.J., AUGER M.W., et al.
2010ApJ...714.1355T 38           X         1 33 12 Dark matter distribution in galaxy groups from combined strong lensing and dynamics analysis. THANJAVUR K., CRAMPTON D. and WILLIS J.
2010MNRAS.407..225V 40           X         1 8 34 Quantifying dwarf satellites through gravitational imaging: the case of SDSSJ120602.09+514229.5. VEGETTI S., CZOSKE O. and KOOPMANS L.V.E.
2010ApJ...724..511A 17       D               1 59 248 The Sloan lens ACS survey. X. Stellar, dynamical, and total mass correlations of massive early-type galaxies. AUGER M.W., TREU T., BOLTON A.S., et al.
2010MNRAS.408.1969V 265     A     X C F     5 5 120 Detection of a dark substructure through gravitational imaging. VEGETTI S., KOOPMANS L.V.E., BOLTON A., et al.
2010ARA&A..48...87T 272           X C       6 25 170 Strong lensing by galaxies. TREU T.
2012Natur.481..341V 11 6 140 Gravitational detection of a low-mass dark satellite galaxy at cosmological distance. VEGETTI S., LAGATTUTA D.J., McKEAN J.P., et al.
2012ApJ...752..163S 387     A     X C       9 4 104 Evidence for dark matter contraction and a salpeter initial mass function in a massive early-type galaxy. SONNENFELD A., TREU T., GAVAZZI R., et al.
2012ApJ...755...31C viz 16       D               1 312 26 Testing the dark energy with gravitational lensing statistics. CAO S., COVONE G. and ZHU Z.-H.
2010RPPh...73h6901M 39           X         1 26 94 The dark matter of gravitational lensing. MASSEY R., KITCHING T. and RICHARD J.
2013MNRAS.429L..35A 40           X         1 5 13 Lensing and dynamics in two simple steps. AGNELLO A., AUGER M.W. and EVANS N.W.
2013A&A...559A..37S 84             C       1 8 80 Mass-sheet degeneracy, power-law models and external convergence: Impact on the determination of the Hubble constant from gravitational lensing. SCHNEIDER P. and SLUSE D.
2014A&A...568L...2S 271     A     X C       6 1 19 Can one determine cosmological parameters from multi-plane strong lens systems ? SCHNEIDER P.
2014MNRAS.442.2017V 675     A D S   X C       16 34 64 Inference of the cold dark matter substructure mass function at z = 0.2 using strong gravitational lenses. VEGETTI S., KOOPMANS L.V.E., AUGER M.W., et al.
2015MNRAS.446..493P 16       D               2 55 45 The stellar initial mass function of early-type galaxies from low to high stellar velocity dispersion: homogeneous analysis of atlas3D and Sloan Lens ACS galaxies. POSACKI S., CAPPELLARI M., TREU T., et al.
2015ApJ...806..185C viz 16       D               1 121 46 Cosmology with strong-lensing systems. CAO S., BIESIADA M., GAVAZZI R., et al.
2015MNRAS.452.2434S 96       D       C       3 33 3 The X-Shooter Lens Survey - II. Sample presentation and spatially-resolved kinematics. SPINIELLO C., KOOPMANS L.V.E., TRAGER S.C., et al.
2016MNRAS.456.2210C 82           X         2 4 4 Compound lensing: Einstein zig-zags and high-multiplicity lensed images. COLLETT T.E. and BACON D.J.
2016MNRAS.459.3677L 463       D     X C F     10 39 17 Strong gravitational lensing and the stellar IMF of early-type galaxies. LEIER D., FERRERAS I., SAHA P., et al.
2017MNRAS.469.1997D 153           X C       2 1 30 The impact of baryonic physics on the subhalo mass function and implications for gravitational lensing. DESPALI G. and VEGETTI S.
2019ApJ...872...11H 17       D               2 25 ~ Strong gravitational lensing by wave dark matter halos. HERRERA-MARTIN A., HENDRY M., GONZALEZ-MORALES A.X., et al.
2019ApJ...872..185C 43           X         1 8 ~ Adaptive grid lens modeling of the Cosmic Horseshoe using Hubble Space Telescope imaging. CHENG J., WIESNER M.P., PENG E.-H., et al.
2020MNRAS.491.5188W 44           X         1 3 ~ Early-type galaxy density profiles from IllustrisTNG - I. Galaxy correlations and the impact of baryons. WANG Y., VOGELSBERGER M., XU D., et al.
2020ApJ...897..127W 87           X         2 14 ~ Cosmology-independent estimate of the Hubble constant and spatial curvature using time-delay lenses and quasars. WEI J.-J. and MELIA F.

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