QSO B1520+530 , the SIMBAD biblio

QSO B1520+530 , the SIMBAD biblio (114 results) C.D.S. - SIMBAD4 rel 1.7 - 2020.02.22CET15:54:28


Sort references on where and how often the object is cited
trying to find the most relevant references on this object.
More on score
Bibcode/DOI Score in Title|Abstract|
Keywords
in a table in teXt, Caption, ... Nb occurence Nb objects in ref Citations
(from ADS)
Title First 3 Authors
2019A&A...622A..18S 914     A S   X C       18 4 ~ LoTSS/HETDEX: Disentangling star formation and AGN activity in gravitationally lensed radio-quiet quasars. STACEY H.R., McKEAN J.P., JACKSON N.J., et al.
2019MNRAS.483.2275L 19       D               1 16 ~ Reconciling the quasar microlensing disc size problem with a wind model of active galactic nucleus. LI Y.-P., YUAN F. and DAI X.
2018ApJ...859...50F 18       D               1 76 2 Microlensing and intrinsic variability of the broad emission lines of lensed quasars. FIAN C., GUERRAS E., MEDIAVILLA E., et al.
2018MNRAS.479.5060L 93             C       1 2 6 Gravitationally lensed quasars in Gaia - II. Discovery of 24 lensed quasars. LEMON C.A., AUGER M.W., McMAHON R.G., et al.
2017A&A...597A..49G 44           X         1 11 3 MiNDSTEp differential photometry of the gravitationally lensed quasars WFI 2033-4723 and HE 0047-1756: microlensing and a new time delay. GIANNINI E., SCHMIDT R.W., WAMBSGANSS J., et al.
2017A&A...600A..79A 12 2 Apparent quasar disc sizes in the "bird's nest" paradigm. ABOLMASOV P.
2017ApJ...850...94W viz 17       D               1 27 7 A spectroscopic survey of the fields of 28 strong gravitational lenses: implications for H0. WILSON M.L., ZABLUDOFF A.I., KEETON C.R., et al.
2017MNRAS.472...90D 17       D               1 146 9 H0LiCOW VII: cosmic evolution of the correlation between black hole mass and host galaxy luminosity. DING X., TREU T., SUYU S.H., et al.
2015A&A...580A..38R 184       D     X C       4 50 19 H0 from ten well-measured time delay lenses. RATHNA KUMAR S., STALIN C.S. and PRABHU T.P.
2015ARep...59...12S 12 2 Determining the time delays in the gravitational lens PG 1115+080. SHIMANOVSKAYA E.V., OKNYANSKII V.L. and ARTAMONOV B.P.
2015ApJ...799...48B 17       D               1 20 5 Strongly lensed jets, time delays, and the value of H0. BARNACKA A., GELLER M.J., DELL'ANTONIO I.P., et al.
2015ApJ...799..149J 17       D               1 64 23 Dark matter mass fraction in lens galaxies: new estimates from microlensing. JIMENEZ-VICENTE J., MEDIAVILLA E., KOCHANEK C.S., et al.
2015ApJ...806..251J 17       D               1 74 17 Probing the dark matter radial profile in lens galaxies and the size of X-ray emitting region in quasars with microlensing. JIMENEZ-VICENTE J., MEDIAVILLA E., KOCHANEK C.S., et al.
2015ApJS..219...29M viz 59       D     X         2 10653 13 A spectroscopic survey of the fields of 28 strong gravitational lenses. MOMCHEVA I.G., WILLIAMS K.A., COOL R.J., et al.
2015MNRAS.452.2423Y 17       D               1 127 10 Cosmological test using strong gravitational lensing systems. YUAN C.C. and WANG F.Y.
2014ApJ...788..190W 59       D     X         2 24 24 A comparison of cosmological models using time delay lenses. WEI J.-J., WU X.-F. and MELIA F.
2014MNRAS.437..600S 16       D               2 41 30 Hubble constant and dark energy inferred from free-form determined time delay distances. SERENO M. and PARAFICZ D.
2013ApJ...762..122C 42           X         1 7 7 Inclination-dependent active galactic nucleus flux profiles from strong lensing of the Kerr spacetime. CHEN B., DAI X. and BARON E.
2013ApJ...764..160G 16       D               2 53 44 Microlensing of quasar broad emission lines: constraints on broad line region size. GUERRAS E., MEDIAVILLA E., JIMENEZ-VICENTE J., et al.
2013ApJ...769...53M 87               F     12 82 The structure of the X-ray and optical emitting regions of the lensed quasar Q 2237+0305. MOSQUERA A.M., KOCHANEK C.S., CHEN B., et al.
2013MNRAS.431.1528B 203     A D     X         6 23 4 Bayesian approach to gravitational lens model selection: constraining H0 with a selected sample of strong lenses. BALMES I. and CORASANITI P.S.
2012A&A...538A..99S 642     A D     X C       16 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.
2012ApJ...744...90B 16       D               1 27 8 A graphics processing unit-enabled, high-resolution cosmological microlensing parameter survey. BATE N.F. and FLUKE C.J.
2012ApJ...751..106J 17       D               1 24 43 A robust determination of the size of quasar accretion disks using gravitational microlensing. JIMENEZ-VICENTE J., MEDIAVILLA E., MUNOZ J.A., et al.
2012ApJ...755...31C viz 16       D               2 313 26 Testing the dark energy with gravitational lensing statistics. CAO S., COVONE G. and ZHU Z.-H.
2012ApJ...756...52M viz 48           X         1 8 67 Further evidence that quasar X-ray emitting regions are compact: X-ray and optical microlensing in the lensed quasar Q J0158-4325. MORGAN C.W., HAINLINE L.J., CHEN B., et al.
2012MNRAS.423..676A 1245   K A D S   X C       30 10 13 Resolving the inner structure of QSO discs through fold-caustic-crossing events. ABOLMASOV P. and SHAKURA N.I.
2012MNRAS.427.1867A 297       D     X   F     7 21 10 Microlensing evidence for super-Eddington disc accretion in quasars. ABOLMASOV P. and SHAKURA N.I.
2011A&A...536A..44E 437     A D     X C F     10 22 22 Time delays for eleven gravitationally lensed quasars revisited. EULAERS E. and MAGAIN P.
2011ApJ...726...84W 80             C       1 14 52 The effect of environment on shear in strong gravitational lenses. WONG K.C., KEETON C.R., WILLIAMS K.A., et al.
2011ApJ...738...96M 16       D               1 90 67 The microlensing properties of a sample of 87 lensed quasars. MOSQUERA A.M. and KOCHANEK C.S.
2011ApJ...740...97L 119           X C       2 27 23 Resolving the baryon-fraction profile in lensing galaxies. LEIER D., FERRERAS I., SAHA P., et al.
2011ApJ...742...67M 477     A D S   X C       11 30 26 A study of gravitational lens chromaticity with the Hubble space telescope. MUNOZ J.A., MEDIAVILLA E., KOCHANEK C.S., et al.
2011MNRAS.413.2121M 16       D               1 43 1 Cusped mass density profiles and magnification ratios of double-image gravitational lenses. MUTKA P.T.
2010A&A...518A..10V viz 16       D               2 168912 373 A catalogue of quasars and active nuclei: 13th edition. VERON-CETTY M.-P. and VERON P.
2010ApJ...711..246F 158             C F     1 15 45 Improved constraints on the gravitational lens Q0957+561. II. Strong lensing. FADELY R., KEETON C.R., NAKAJIMA R., et al.
2010ApJ...712.1129M 62       D     X         2 12 170 The quasar accretion disk size-black hole mass relation. MORGAN C.W., KOCHANEK C.S., MORGAN N.D., et al.
2010ApJ...712.1378P 135       D     X   F     3 20 42 The Hubble constant inferred from 18 time-delay lenses. PARAFICZ D. and HJORTH J.
2010ApJ...724..400C 39           X         1 9 11 Gravitational nanolensing from subsolar mass dark matter halos. CHEN J. and KOUSHIAPPAS S.M.
2010MmSAI..81..138K 315     A D     X C       8 20 3 Multiwavelengths observations of lensed quasars: interband time delays. KOPTELOVA E., OKNYANSKIJ V., ARTAMONOV B., et al.
2009A&A...499..395P viz 39           X         1 30 10 Results of optical monitoring of 5 SDSS double QSOs with the Nordic Optical Telescope. PARAFICZ D., HJORTH J. and ELIASDOTTIR A.
2009ApJ...706.1451M 133       D     X   F     3 70 41 Microlensing-based estimate of the mass fraction in compact objects in lens galaxies. MEDIAVILLA E., MUNOZ J.A., FALCO E., et al.
2009MNRAS.397.1982S 39           X         1 7 8 Microlensing variability in FBQ 0951+2635: short-time-scale events or a long-time-scale fluctuation ? SHALYAPIN V.N., GOICOECHEA L.J., KOPTELOVA E., et al.
2009NewAR..53..202Z 39           X         1 12 9 Gravitational lensing: From micro to nano. ZAKHAROV A.F.
2009RMxAC..35..195F 39           X         1 39 0 Cosmology with gravitational lenses. FALCO E.E.
2008A&A...478...95Y 248       D     X         7 108 21 Origin of chromatic features in multiple quasars. Variability, dust, or microlensing. YONEHARA A., HIRASHITA H. and RICHTER P.
2008A&A...480..647E 39           X         1 24 32 Microlensing variability in the gravitationally lensed quasar. QSO 2237+0305 = the Einstein Cross. I. Spectrophotometric monitoring with the VLT. EIGENBROD A., COURBIN F., SLUSE D., et al.
2008A&A...492L..39S 39           X         1 7 13 A sharp look at the gravitationally lensed quasar SDSS J0806+2006 with laser guide star adaptive optics at the VLT. SLUSE D., COURBIN F., EIGENBROD A., et al.
2008A&ARv..15..289T viz 39           X         1 299 41 The expansion field: the value of H0. TAMMANN G.A., SANDAGE A. and REINDL B.
2008ApJ...673..778A 178 T K A     X         4 37 28 Lens galaxy properties of
SBS 1520+530: insights from Keck spectroscopy and AO imaging.
AUGER M.W., FASSNACHT C.D., WONG K.C., et al.
2008ApJ...679...17C 1 11 36 A new estimate of the Hubble time with improved modeling of gravitational lenses. COLES J.
2008MNRAS.384..843M 15       D               1 13 9 Validity of strong lensing statistics for constraints on the galaxy evolution model. MATSUMOTO A. and FUTAMASE T.
2008MNRAS.387..803C 39           X         1 4 3 The Hubble constant from galaxy lenses: impacts of triaxiality and model degeneracies. CORLESS V.L., DOBKE B.M. and KING L.J.
2007ApJ...660....1O 1 47 101 Gravitational lens time delays: a statistical assessment of lens model dependences and implications for the global Hubble constant. OGURI M.
2007ApJ...667..645R 1 10 24 Radial density profiles of time-delay lensing galaxies. READ J.I., SAHA P. and MACCIO A.V.
2007MNRAS.377.1503D 116           X         3 4 15 Steepened inner density profiles of group galaxies via interactions: an N-body analysis. DOBKE B.M., KING L.J. and FELLHAUER M.
2006A&A...450..461S 28 16 COSMOGRAIL: the COSmological MOnitoring of GRAvItational Lenses. IV. Models of prospective time-delay lenses. SAHA P., COURBIN F., SLUSE D., et al.
2006A&A...452...25U 23 16 Time delay of SBS 0909+532. ULLAN A., GOICOECHEA L.J., ZHELEZNYAK A.P., et al.
2006A&A...455..773V viz 108221 436 A catalogue of quasars and active nuclei: 12th edition. VERON-CETTY M.-P. and VERON P.
2006A&A...455L...1P viz 2 7 29 Microlensing variability in time-delay quasars. PARAFICZ D., HJORTH J., BURUD I., et al.
2006A&A...460..647D         O           21 16 A simple analysis of halo density profiles using gravitational lensing time delays. DOBKE B.M. and KING L.J.
2006ApJ...640...47K 1 26 100 The time delays of gravitational lens HE 0435-1223: an early-type galaxy with a rising rotation curve. KOCHANEK C.S., MORGAN N.D., FALCO E.E., et al.
2006ApJ...644..733G 28 20 Lens-Aided Multi-Angle Spectroscopy (LAMAS) reveals small-scale outflow structure in quasars. GREEN P.J.
2006ApJ...649..616P 2 60 245 Probing the coevolution of supermassive black holes and galaxies using gravitationally lensed quasar hosts. PENG C.Y., IMPEY C.D., RIX H.-W., et al.
2006ApJ...650L..17S 1 24 51 The Hubble time inferred from 10 time delay lenses. SAHA P., COLES J., MACCIO A.V., et al.
2006ApJ...653..936S 1 9 26 Gravitational lensing model degeneracies: is steepness all-important? SAHA P. and WILLIAMS L.L.R.
2006AstL...32..514K 78 T                   2 8 Analysis of optical light curves for the components of the gravitationally lensed quasar
SBS 1520+530 based on observations with the 1.5-m RTT-150 telescope in 2001-2005.
KHAMITOV I.M., BIKMAEV I.F., ASLAN Z., et al.
2006MNRAS.368..171Z 1 25 79 Testing Bekenstein's relativistic Modified Newtonian Dynamics with lensing data. ZHAO H., BACON D.J., TAYLOR A.N., et al.
2005A&A...431..103J 1 12 36 An optical time delay for the double gravitational lens system FBQ 0951+2635. JAKOBSSON P., HJORTH J., BURUD I., et al.
2005A&A...436...25E 1         O           14 34 COSMOGRAIL: The COSmological MOnitoring of GRAvItational Lenses. I. How to sample the light curves of gravitationally lensed quasars to measure accurate time delays. EIGENBROD A., COURBIN F., VUISSOZ C., et al.
2005A&A...440...53G viz 115 T K                 8 18 Microlensing in the double quasar
SBS1520+530.
GAYNULLINA E.R., SCHMIDT R.W., AKHUNOV T., et al.
2005ApJ...623L...5F 42 66 Stellar and total mass in early-type lensing galaxies. FERRERAS I., SAHA P. and WILLIAMS L.L.R.
2005ApJ...624..118M 49 16 Measuring extinction curves of lensing galaxies. McGOUGH C., CLAYTON G.C., GORDON K.D., et al.
2005ApJ...630..142G 36 5 Discovery of a galaxy cluster in the foreground of the wide-separation quasar pair UM 425. GREEN P.J., INFANTE L., LOPEZ S., et al.
2005ApJ...631..145V 1 42 150 Mass-to-Light ratios of field early-type galaxies at z ∼ 1 from ultradeep spectroscopy: evidence for mass-dependent evolution. VAN DER WEL A., FRANX M., VAN DOKKUM P.G., et al.
2005MNRAS.356..323K 15 17 Image reconstruction technique and optical monitoring of the QSO2237+0305 from Maidanak Observatory in 2002-2003. KOPTELOVA E., SHIMANOVSKAYA E., ARTAMONOV B., et al.
2005MNRAS.357..124Y 1 18 50 The Hubble constant from the gravitational lens CLASS B0218+357 using the Advanced Camera for Surveys. YORK T., JACKSON N., BROWNE I.W.A., et al.
2004A&A...414..425S 9 9 Time-delay quasars: Scales and orders of magnitudes. SAHA P.
2004A&A...428..741F 24 26 A search for clusters and groups of galaxies on the line of sight towards 8 lensed quasars. FAURE C., ALLOIN D., KNEIB J.P., et al.
2004AJ....127.2604S 4 7 58 A portable modeler of lensed quasars. SAHA P. and WILLIAMS L.L.R.
2003A&A...402.1157N viz 56 8 A catalog of secondary photometric standard stars around gravitational lenses. NAKOS T., OFEK E.O., BOUMIS P., et al.
2003A&A...412...35B 15 5 152 An alternative to the cosmological ``concordance model''. BLANCHARD A., DOUSPIS M., ROWAN-ROBINSON M., et al.
2003A&A...412..399V 1 72 145 A catalogue of quasars and active nuclei: 11th edition. VERON-CETTY M.-P. and VERON P.
2003AJ....125.2325P 1 11 23 Determining the lensing fraction of SDSS quasars: methods and results from the early data release. PINDOR B., TURNER E.L., LUPTON R.H., et al.
2003ARep...47..717Z 75 T                   6 2 Optical observations of the gravitational lens
SBS 1520+530 at the Maidanak Observatory.
ZHELEZNYAK A.P., SERGEEV A.V. and BURKHONOV O.A.
2003ApJ...583...49K 1 11 43 Gravitational lens time delays in cold dark matter. KOCHANEK C.S.
2003ApJ...587..143R 62 118 The evolution of a mass-selected sample of early-type field galaxies. RUSIN D., KOCHANEK C.S., FALCO E.E., et al.
2003ApJ...592..710A 26 14 Lens or binary? Chandra observations of the wide-separation broad absorption line quasar pair UM 425. ALDCROFT T.L. and GREEN P.J.
2003ApJ...594..101O 1 21 48 Time-delay measurement of the lensed quasar HE 1104-1805. OFEK E.O. and MAOZ D.
2003ApJ...595...29R 1 45 118 Self-similar models for the mass profiles of early-type lens galaxies. RUSIN D., KOCHANEK C.S. and KEETON C.R.
2003ApJ...596L..43C 9 10 Strong gravitational lensing and the structure of quasar outflows. CHELOUCHE D.
2003MNRAS.343..639O 78 60 The redshift distribution of gravitational lenses revisited: constraints on galaxy mass evolution. OFEK E.O., RIX H.-W. and MAOZ D.
2002A&A...386...69F 113 T K                 9 22 The lensing system towards the doubly imaged quasar
SBS 1520+530.
FAURE C., COURBIN F., KNEIB J.P., et al.
2002A&A...391..481B viz 137 T K A   O           10 74 Time delay and lens redshift for the doubly imaged BAL quasar
SBS 1520+530.
BURUD I., HJORTH J., COURBIN F., et al.
2002A&ARv..10..263C 59 26 Gravitational lensing in quasar samples. CLAESKENS J.-F. and SURDEJ J.
2002ApJ...571..712B 46 44 A submillimeter survey of gravitationally lensed quasars. BARVAINIS R. and IVISON R.
2002ApJ...572L..11H 2 9 53 The time delay of the quadruple quasar RX J0911.4+0551. HJORTH J., BURUD I., JAUNSEN A.O., et al.
2002ApJ...577..615W 1 7 20 Measuring the size of quasar broad-line clouds through time-delay light-curve anomalies of gravitational lenses. WYITHE J.S.B. and LOEB A.
2002ApJ...578...25K 7 8 116 What do gravitational lens time delays measure? KOCHANEK C.S.
2002ApJ...581..823F 1 28 87 A determination of H0with the CLASS gravitational lens B1608+656. III. A significant improvement in the of the time delay measurements. FASSNACHT C.D., XANTHOPOULOS E., KOOPMANS L.V.E., et al.
2001AJ....121...21B 151 47 The distribution of redshifts in new samples of quasi-stellar objects. BURBIDGE G. and NAPIER W.M.
2001AJ....121.2843B viz 6250 74 Quasars in the 2MASS second incremental data release. BARKHOUSE W.A. and HALL P.B.
2000A&AS..147..169B viz 2738 21 Accurate optical positions for 2978 objects from the Second Byurakan Survey (SBS) with the Digitized Sky Survey. BICAY M.D., STEPANIAN J.A., CHAVUSHYAN V.H., et al.
2000ApJ...531...81C 28 38 X-ray observations of gravitationally lensed quasars: evidence for a hidden quasar population. CHARTAS G.
2000ApJ...543..131K 56 152 The fundamental plane of gravitational lens galaxies and the evolution of early-type galaxies in low-density environments. KOCHANEK C.S., FALCO E.E., IMPEY C.D., et al.
2000PASJ...52...99A 4 4 Usability of the NFW galaxy profiles as a cosmological tool estimated from 2-image gravitatinal lens systems. ASANO K.
2000PASP..112..320B 8 12 Microlensing of broad absorption line quasars: polarization variability. BELLE K.E. and LEWIS G.F.
1999Ap&SS.263...51M 31 ~ The CASTLES project. MUNOZ J.A., FALCO E.E., KOCHANEK C.S., et al.
1999ApJ...523..617F 2 27 205 Dust and extinction curves in galaxies with z>0: the interstellar medium of gravitational lens galaxies. FALCO E.E., IMPEY C.D., KOCHANEK C.S., et al.
1999JRASC..93..168C 6 0 Exploring the frontiers of the Universe with new eyes. CRAMPTON D.
1998AJ....115.1383C 110 T K                 9 10 Detection of the galaxy lensing the doubly imaged quasar
SBS 1520+530.
CRAMPTON D., SCHECHTER P.L. and BEUZIT J.-L.
1998BCFHT..38...14C 17 0 Extragalactic observations with adaptive optics. CRAMPTON D.
1998BSAO...46...18V 73 T                   2 1 Photometric investigation of the field around gravitational lens SBS 1520+530 with the 6m telescope. VLASYUK V.V. and CHAVUSHYAN V.H.
1997A&A...318L..67C 110 T K                 8 32 SBS 1520+530: a new gravitationally lensed system at z=1.855. CHAVUSHYAN V.H., VLASYUK V.V., STEPANIAN J.A., et al.

goto View the references in ADSLimited to 100


2020.02.22-15:54:28

© Université de Strasbourg/CNRS

    • Contact