CLASS B0128+437 , the SIMBAD biblio

CLASS B0128+437 , the SIMBAD biblio (55 results) C.D.S. - SIMBAD4 rel 1.7 - 2021.04.19CEST04:39:19


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Title First 3 Authors
2020A&A...635A..86W 2734 T K A S   X C       56 20 ~ Model-independent and model-based local lensing properties of

B0128+437
from resolved quasar images.
WAGNER J. and WILLIAMS L.L.R.
2020MNRAS.492.3047H 485       D     X C       10 45 ~ SHARP - VII. New constraints on the dark matter free-streaming properties and substructure abundance from gravitationally lensed quasars. HSUEH J.-W., ENZI W., VEGETTI S., et al.
2020MNRAS.492L..12G 93           X         2 4 ~ Constraints on the mass-concentration relation of cold dark matter halos with 11 strong gravitational lenses. GILMAN D., DU X., BENSON A., et al.
2019A&A...630A.108S viz 45           X         1 25 ~ Proper motion in lensed radio jets at redshift 3: A possible dual super-massive black hole system in the early Universe. SPINGOLA C., McKEAN J.P., MASSARI D., et al.
2019MNRAS.483.2125S 45           X         1 19 ~ A novel search for gravitationally lensed radio sources in wide-field VLBI imaging from the mJIVE-20 survey. SPINGOLA C., McKEAN J.P., LEE M., et al.
2018MNRAS.475.2438H 758       D     X C F     16 8 8 Flux-ratio anomalies from discs and other baryonic structures in the Illustris simulation. HSUEH J.-W., DESPALI G., VEGETTI S., et al.
2018MNRAS.476.5075S 17       D               2 103 6 Gravitational lensing reveals extreme dust-obscured star formation in quasar host galaxies. STACEY H.R., McKEAN J.P., ROBERTSON N.C., et al.
2018MNRAS.478.4816S 44           X         1 17 1 SHARP - V. Modelling gravitationally lensed radio arcs imaged with global VLBI observations. SPINGOLA C., McKEAN J.P., AUGER M.W., et al.
2017MNRAS.467.3970G 128           X   F     2 34 18 Strong lensing signatures of luminous structure and substructure in early-type galaxies. GILMAN D., AGNELLO A., TREU T., et al.
2017MNRAS.469.3713H 44           X         1 11 13 SHARP - IV. An apparent flux-ratio anomaly resolved by the edge-on disc in B0712+472. HSUEH J.-W., OLDHAM L., SPINGOLA C., et al.
2016MNRAS.458....2R viz 42           X         1 128 24 Subaru Telescope adaptive optics observations of gravitationally lensed quasars in the Sloan Digital Sky Survey. RUSU C.E., OGURI M., MINOWA Y., et al.
2016MNRAS.459.2394Q 42           X         1 13 5 A new VLA/e-MERLIN limit on central images in the gravitational lens system CLASS B1030+074. QUINN J., JACKSON N., TAGORE A., et al.
2016MNRAS.461..164I 100       D     X         3 15 8 On the origin of the flux ratio anomaly in quadruple lens systems. INOUE K.T.
2015MNRAS.447.3189X 456     A D S   X   F     10 16 49 How well can cold dark matter substructures account for the observed radio flux-ratio anomalies. XU D., SLUSE D., GAO L., et al.
2015MNRAS.448.2704I 224       D     X         6 8 18 Constraints on warm dark matter from weak lensing in anomalous quadruple lenses. INOUE K.T., TAKAHASHI R., TAKAHASHI T., et al.
2015MNRAS.454..287J 41           X         1 45 14 Observations of radio-quiet quasars at 10-mas resolution by use of gravitational lensing. JACKSON N., TAGORE A.S., ROBERTS C., et al.
2013MNRAS.436.2120N 96       D       C       1 17 5 Do gravitational lens galaxies have an excess of luminous substructure ? NIERENBERG A.M., OLDENBURG D. and TREU T.
2012A&A...538A..43C 16       D               1 36 19 Constraints on cosmological models from lens redshift data. CAO S. and ZHU Z.-H.
2012A&A...538A..99S 334       D     X         9 72 45 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 D., CHANTRY V., MAGAIN P., et al.
2011ApJ...739L..28J 39           X         1 15 8 The faintest radio source yet: expanded very large array observations of the gravitational lens SDSS J1004+4112. JACKSON N.
2011ApJ...741..117C 16       D               1 18 23 The effects of halo-to-halo variation on substructure lensing. CHEN J., KOUSHIAPPAS S.M. and ZENTNER A.R.
2010A&A...513A..18F 39           X         1 11 0 The radio-loud active nucleus in the ``dark lens'' galaxy J1218+2953. FREY S., PARAGI Z., CAMPBELL R.M., et al.
2010A&A...522A..95C 195           X         5 52 23 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 V., SLUSE D. and MAGAIN P.
2010ApJ...709..552C 94       D         F     9 105 10 Identifying anomalies in gravitational lens time delays. CONGDON A.B., KEETON C.R. and NORDGREN C.E.
2010ApJ...715..793G 94       D     X         3 21 8 Fold lens flux anomalies: a geometric approach. GOLDBERG D.M., CHESSEY M.K., HARRIS W.B., et al.
2010ApJ...716L.185L 1193 T K A     X C       29 12 20 Adaptive optics observations of
B0128+437: a low-mass, high-redshift gravitational lens.
LAGATTUTA D.J., AUGER M.W. and FASSNACHT C.D.
2010MNRAS.402.2031C 55       D     X         2 33 31 Galaxy evolution from strong-lensing statistics: the differential evolution of the velocity dispersion function in concord with the Λ cold dark matter paradigm. CHAE K.-H.
2010MNRAS.403..826J 78             C       1 26 14 Satellites in the field and lens galaxies: SDSS/COSMOS versus SLACS/CLASS. JACKSON N., BRYAN S.E., MAO S., et al.
2009MNRAS.398.1235X 117           X C       2 16 63 Effects of dark matter substructures on gravitational lensing: results from the Aquarius simulations. XU D.D., MAO S., WANG J., et al.
2008ApJ...685..725W 33 9 Lensed image angles: new statistical evidence for substructure. WILLIAMS L.L.R., FOLEY P., FARNSWORTH D., et al.
2008MNRAS.389.1311J 40           X         1 7 29 Gravitational lenses and lens candidates identified from the COSMOS field. JACKSON N.
2008RPPh...71f6901M 38           X         1 68 6 High resolution radio astronomy using very long baseline interferometry. MIDDELBERG E. and BACH U.
2007A&A...465..405M 76           X         2 19 12 Free-free absorption in the gravitational lens JVAS B0218+357. MITTAL R., PORCAS R. and WUCKNITZ O.
2007ApJ...659...52C 1 9 34 Astrometric perturbations in substructure lensing. CHEN J., ROZO E., DALAL N., et al.
2007MNRAS.374..168J 16 6 Improving efficiency in radio surveys for gravitational lenses. JACKSON N. and BROWNE I.W.A.
2007SerAJ.174....1Z 7 3 Studies of relativistic effects with radioastron space mission. ZAKHAROV A.F.
2006AJ....132..999O viz 1 21 75 The Sloan Digital Sky Survey Quasar Lens Search. I. Candidate selection algorithm. OGURI M., INADA N., PINDOR B., et al.
2006MNRAS.367.1543P 10 6 Rotation in gravitational lenses. PEN U.-L. and MAO S.
2006MNRAS.373.1369C 27 15 Constraints on the velocity profiles of galaxies from strong lensing statistics and semi-analytical modelling of galaxy formation. CHAE K.-H., MAO S. and KANG X.
2005ApJ...630..764C 43 13 Constraints on the velocity dispersion function of early-type galaxies from the statistics of strong gravitational lensing. CHAE K.-H.
2005ApJ...635...35K 30 52 Identifying lenses with small-scale structure. II. Fold lenses. KEETON C.R., GAUDI B.S. and PETTERS A.O.
2004ApJ...604L...5M 3 13 83 Anomalous flux ratios in gravitational lenses: for or against cold dark matter? MAO S., JING Y., OSTRIKER J.P., et al.
2004ApJ...608...25C 1 12 33 The effects of massive substructures on image multiplicities in gravitational lenses. COHN J.D. and KOCHANEK C.S.
2004MNRAS.350..167M 37   K                 10 11 Keck spectroscopy of Cosmic Lens All-Sky Survey gravitational lenses. McKEAN J.P., KOOPMANS L.V.E., BROWNE I.W.A., et al.
2004MNRAS.350..949B 113 T K                 19 39 Radio, optical and infrared observations of
CLASS
B0128+437
.
BIGGS A.D., BROWNE I.W.A., JACKSON N.J., et al.
2004NewAR..48.1085K 3 3 18 Strong gravitational lensing with SKA. KOOPMANS L.V.E., BROWNE I.W.A. and JACKSON N.J.
2003ApJ...587...80W 1 14 31 Investigation of the possible third image and mass models of the gravitational lens PMN J1632-0033. WINN J.N., RUSIN D. and KOCHANEK C.S.
2003ApJ...595..712K 1 11 43 Extrinsic radio variability of JVAS/CLASS gravitational lenses. KOOPMANS L.V.E., BIGGS A., BLANDFORD R.D., et al.
2003ApJ...598..138K 2 23 103 Identifying lenses with small-scale structure. I. Cusp lenses. KEETON C.R., GAUDI B.S. and PETTERS A.O.
2003MNRAS.341....1M viz 4 26 216 The Cosmic Lens All-Sky Survey - I. Source selection and observations. MYERS S.T., JACKSON N.J., BROWNE I.W.A., et al.
2002ApJ...571..712B 46 44 A submillimeter survey of gravitationally lensed quasars. BARVAINIS R. and IVISON R.
2002ApJ...572...25D 10 11 330 Direct detection of cold dark matter substructure. DALAL N. and KOCHANEK C.S.
2001AJ....122..591R 28 14 The new two-image gravitational lens system CLASS B2319+051. RUSIN D., MARLOW D.R., NORBURY M., et al.
2001ApJ...553..709R 1 20 71 Why is the fraction of four-image radio lens systems so high? RUSIN D. and TEGMARK M.
2000MNRAS.319L...7P 111 T K                 6 31 A new quadruple gravitational lens system: CLASS
B0128+437.
PHILLIPS P.M., NORBURY M.A., KOOPMANS L.V.E., et al.

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