QSO J0924+0219 , the SIMBAD biblio

QSO J0924+0219 , the SIMBAD biblio (113 results) C.D.S. - SIMBAD4 rel 1.7 - 2021.04.23CEST01:05:35

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Title First 3 Authors
2021MNRAS.500.3667S 1120       D S   X C       21 30 ~ The rocky road to quiescence: compaction and quenching of quasar host galaxies at z ∼ 2. STACEY H.R., McKEAN J.P., POWELL D.M., et al.
2020ApJ...890....3R 1101 T   A S   X C       21 13 ~ Microlensing analysis for the gravitational lens systems
SDSS0924+0219, Q1355-2257, and SDSS1029+2623.
2020ApJ...895...93C 19       D               1 16 ~ Quasar microlensing variability studies favor shallow accretion disk temperature profiles. CORNACHIONE M.A. and MORGAN C.W.
2020ApJ...896..111G 718       D     X C       15 19 ~ A second-order moment of microlensing variability as a novel tool to constrain source emission size or discrete lens demographics in extragalactic research. GUERRAS E., DAI X. and MEDIAVILLA E.
2020ApJ...905....7C 47           X         1 5 ~ Near-infrared and optical continuum emission region size measurements in the gravitationally lensed quasars Q0957+561 and SBS0909+532. CORNACHIONE M.A., MORGAN C.W., BURGER H.R., et al.
2020MNRAS.496..138B 1334 T K A S   X C       26 9 ~ VLA and ALMA observations of the lensed radio-quiet quasar
SDSS J0924+0219: a molecular structure in a 3 µJy radio source.
2019ApJ...885...77B 45           X         1 14 ~ Confirmation of planet-mass objects in extragalactic systems. BHATIANI S., DAI X. and GUERRAS E.
2019MNRAS.483.2275L 18       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.
2018A&A...613A..51P viz 17       D               1 525779 26 The Sloan Digital Sky Survey Quasar Catalog: Fourteenth data release. PARIS I., PETITJEAN P., AUBOURG E., et al.
2018ApJ...859...50F 17       D               1 76 2 Microlensing and intrinsic variability of the broad emission lines of lensed quasars. FIAN C., GUERRAS E., MEDIAVILLA E., et al.
2018ApJ...862..104M 87           X         2 11 ~ Systematic redshift of the Fe III UV lines in quasars: measuring supermassive black hole masses under the gravitational redshift hypothesis. MEDIAVILLA E., JIMENEZ-VICENTE J., FIAN C., et al.
2018ApJ...869..106M viz 131           X C       2 9 ~ Accretion disk size measurement and time delays in the lensed quasar WFI 2033-4723. MORGAN C.W., HYER G.E., BONVIN V., et al.
2018MNRAS.476.5075S 104       D       C       3 103 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.480.1163S 148       D S   X         3 11 3 KiDS-SQuaD: The KiDS Strongly lensed Quasar Detection project. SPINIELLO C., AGNELLO A., NAPOLITANO N.R., et al.
2017A&A...600A..79A 12 2 Apparent quasar disc sizes in the "bird's nest" paradigm. ABOLMASOV P.
2017A&A...604A..46B 255           X         6 7 ~ Analysis of luminosity distributions of strong lensing galaxies: subtraction of diffuse lensed signal. BIERNAUX J., MAGAIN P. and HAURET C.
2017ApJ...836..206G 827       D     X C       19 7 7 Extended X-ray monitoring of gravitational lenses with Chandra and joint constraints on X-ray emission regions. GUERRAS E., DAI X., STEELE S., et al.
2017ApJ...843..118K 44           X         1 3 5 Simulations of the Fe Kα energy spectra from gravitationally microlensed quasars. KRAWCZYNSKI H. and CHARTAS G.
2017ApJ...847...96L 128           X C       2 9 3 Centrally concentrated X-ray radiation from an extended accreting corona in active galactic nuclei. LIU B.F., TAAM R.E., QIAO E., et al.
2017ApJ...851...88K 17       D               2 26 3 Resolving the internal structure of circumgalactic medium using gravitationally lensed quasars. KOYAMADA S., MISAWA T., INADA N., 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.
2016A&A...585A..84B viz 100       D       C       7 7 2 Analysis of luminosity distributions and the shape parameters of strong gravitational lensing elliptical galaxies. BIERNAUX J., MAGAIN P., SLUSE D., et al.
2016ApJ...824...53C 42           X         1 9 4 The wide-angle outflow of the lensed z = 1.51 AGN HS 0810+2554. CHARTAS G., CAPPI M., HAMANN F., et al.
2016ApJ...832...46M 17       D               1 58 2 Peculiar transverse velocities of galaxies from quasar microlensing. Tentative estimate of the peculiar velocity dispersion at z ∼ 0.5. MEDIAVILLA E., JIMENEZ-VICENTE J., MUNOZ J.A., et al.
2016MNRAS.461.2346G viz 17       D               1 68277 3 Covering factors of the dusty obscurers in radio-loud and radio-quiet quasars. GUPTA M., SIKORA M. and NALEWAJKO K.
2016MNRAS.462.4094S 226       D S   X         5 105 50 Pan-STARRS and PESSTO search for an optical counterpart to the LIGO gravitational-wave source GW150914. SMARTT S.J., CHAMBERS K.C., SMITH K.W., et al.
2015ApJ...799..149J 16       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...805..161W 58       D     X         2 31 8 Broad iron emission from gravitationally lensed quasars observed by Chandra. WALTON D.J., REYNOLDS M.T., MILLER J.M., et al.
2015ApJ...806..251J 181       D     X C       4 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.
2015ApJ...806..258M viz 1018 T   A     X C       23 6 34 A consistent picture emerges: a compact X-ray continuum emission region in the gravitationally lensed quasar
SDSS J0924+0219.
2015MNRAS.451.4375F 17       D               1 57 91 Properties of AGN coronae in the NuSTAR era. FABIAN A.C., LOHFINK A., KARA E., et al.
2015MNRAS.454..287J 370     A D S   X C       8 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.
2014ApJ...793...96S 506       D     X C       12 20 40 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 P.L., POOLEY D., BLACKBURNE J.A., et al.
2014ApJS..211...16V 44           X         1 4 15 GERLUMPH data release 1: high-resolution cosmological microlensing magnification maps and eResearch tools. VERNARDOS G., FLUKE C.J., BATE N.F., et al.
2014MNRAS.442.1090H 179       D     X C       4 16 6 Modelling spikes in quasar accretion disc temperature. HALL P.B., NOORDEH E.S., CHAJET L.S., et al.
2013A&A...559A..37S 90             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.
2013ApJ...764..160G 136       D     X C       3 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 86               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.
2013ApJ...778..123G 16       D               3 41 9 Microlensing of quasar ultraviolet iron emission. GUERRAS E., MEDIAVILLA E., JIMENEZ-VICENTE J., et al.
2013ApJ...779..161S viz 16       D               1 79596 24 Precious metals in SDSS quasar spectra. II. Tracking the evolution of strong, 0.4 < z < 2.3 Mg II absorbers with thousands of systems. SEYFFERT E.N., COOKSEY K.L., SIMCOE R.A., et al.
2013ApJS..206....4K viz 16       D               1 119609 53 Mean spectral energy distributions and bolometric corrections for luminous quasars. KRAWCZYK C.M., RICHARDS G.T., MEHTA S.S., et al.
2013MNRAS.434..832V 56       D     X         2 9 7 A new parameter space study of cosmological microlensing. VERNARDOS G. and FLUKE C.J.
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 373       D     X C       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.
2012A&A...544A..62S viz 334       D     X         9 47 67 Microlensing of the broad line region in 17 lensed quasars. SLUSE D., HUTSEMEKERS D., COURBIN F., et al.
2012AJ....143..119I viz 95       D     X         3 50857 82 The Sloan Digital Sky Survey Quasar Lens Search. V. Final catalog from the seventh data release. INADA N., OGURI M., SHIN M.-S., 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...744..111P 136       D     X         4 16 39 X-ray and optical flux ratio anomalies in quadruply lensed quasars. II. Mapping the dark matter content in elliptical galaxies. POOLEY D., RAPPAPORT S., BLACKBURNE J.A., et al.
2012ApJ...751..106J 56       D     X         2 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...24C 1947   K A D     X C       49 13 35 X-ray monitoring of gravitational lenses with Chandra. CHEN B., DAI X., KOCHANEK C.S., et al.
2012MNRAS.420.2944W 95       D         F     2 41 5 The fundamental surface of quad lenses. WOLDESENBET A.G. and WILLIAMS L.L.R.
2012MNRAS.423..676A 40           X         1 10 13 Resolving the inner structure of QSO discs through fold-caustic-crossing events. ABOLMASOV P. and SHAKURA N.I.
2012MNRAS.427.1867A 492       D     X C F     11 21 10 Microlensing evidence for super-Eddington disc accretion in quasars. ABOLMASOV P. and SHAKURA N.I.
2011A&A...536A..29F 653 T K A     X C       15 7 6 VLT adaptive optics search for luminous substructures in the lens galaxy towards
SDSS J0924+0219.
2011ApJ...729...34B 567       D     X C       14 55 113 Sizes and temperature profiles of quasar accretion disks from chromatic microlensing. BLACKBURNE J.A., POOLEY D., RAPPAPORT S., et al.
2011ApJ...731...71B 1024   K A D S   X C       25 14 31 A microlensing measurement of dark matter fractions in three lensing galaxies. BATE N.F., FLOYD D.J.E., WEBSTER R.L., 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.
2011ApJS..194...42R viz 16       D               1 27624 44 Supermassive black hole mass estimates using Sloan Digital Sky Survey quasar spectra at 0.7 < z < 2. RAFIEE A. and HALL P.B.
2011ApJS..194...45S viz 16       D               1 105785 768 A catalog of quasar properties from Sloan Digital Sky Survey data release 7. SHEN Y., RICHARDS G.T., STRAUSS M.A., et al.
2011MNRAS.410..860A viz 16       D               1 86769 116 A strong redshift dependence of the broad absorption line quasar fraction. ALLEN J.T., HEWETT P.C., MADDOX N., et al.
2011MNRAS.410.2167F 16       D               2 21 35 Galaxy number counts and implications for strong lensing. FASSNACHT C.D., KOOPMANS L.V.E. and WONG K.C.
2011MNRAS.412.2631L 39           X         1 63 7 Discovery of universal outflow structures above and below the accretion disc plane in radio-quiet quasars. LOVEGROVE J., SCHILD R.E. and LEITER D.
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.
2010A&A...522A..95C 156           X         4 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.
2010AJ....139.2360S viz 80069 700 The Sloan Digital Sky Survey quasar catalog. V. Seventh data release. SCHNEIDER D.P., RICHARDS G.T., HALL P.B., et al.
2010ApJ...709..552C 484       D     X   F     12 105 10 Identifying anomalies in gravitational lens time delays. CONGDON A.B., KEETON C.R. and NORDGREN C.E.
2010ApJ...712.1129M 101       D     X         3 12 170 The quasar accretion disk size-black hole mass relation. MORGAN C.W., KOCHANEK C.S., MORGAN N.D., et al.
2010ApJ...716.1579L 16       D               2 48 34 Cosmic evolution of virial and stellar mass in massive early-type galaxies. LAGATTUTA D.J., FASSNACHT C.D., AUGER M.W., et al.
2010ApJ...724..400C 39           X         1 9 11 Gravitational nanolensing from subsolar mass dark matter halos. CHEN J. and KOUSHIAPPAS S.M.
2009A&A...505..385A viz 15       D               1 99836 26 The large quasar reference frame (LQRF). An optical representation of the ICRS. ANDREI A.H., SOUCHAY J., ZACHARIAS N., et al.
2009ApJ...697.1892P 94       D       C       3 11 36 The dark-matter fraction in the elliptical galaxy lensing the quasar PG 1115+080. POOLEY D., RAPPAPORT S., BLACKBURNE J., et al.
2009ApJ...706.1451M 170       D     X   F     4 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.398..233F 605 T K A     X C       14 12 46 The accretion disc in the quasar
SDSS J0924+0219.
2008A&A...480..647E 77           X         2 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...485..403O 131       D     X         4 67 13 Extinction properties of lensing galaxies. OESTMAN L., GOOBAR A. and MOERTSELL E.
2008AJ....135..496I viz 15       D               2 113 53 The Sloan Digital Sky Survey Quasar Lens Search. II. Statistical lens sample from the third Data Release. INADA N., OGURI M., BECKER R.H., et al.
2008AJ....135..512O 17       D               1 12 60 The Sloan Digital Sky Survey Quasar Lens Search. III. Constraints on dark energy from the third Data Release quasar lens catalog. OGURI M., INADA N., STRAUSS M.A., et al.
2008ApJ...680..169S viz 15       D               1 77431 273 Biases in virial black hole masses: an SDSS perspective. SHEN Y., GREENE J.E., STRAUSS M.A., 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.
2008ApJ...689..755M 40           X         1 13 76 X-ray and optical microlensing in the lensed quasar PG 1115+080. MORGAN C.W., KOCHANEK C.S., DAI X., et al.
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.387.1303S 131       D S   X         3 22 26 An analytic model for non-spherical lenses in covariant MOdified Newtonian Dynamics. SHAN H.Y., FEIX M., FAMAEY B., et al.
2008MNRAS.391..668W 1 2 7 On multiple Einstein rings. WERNER M.C., AN J. and EVANS N.W.
2008MNRAS.391.1973O 38           X         1 12 14 Mass models and environment of the new quadruply lensed quasar SDSS J1330+1810. OGURI M., INADA N., BLACKBURNE J.A., et al.
2008MmSAI..79.1271F 38           X         1 5 2 Probing the emitting region using anomalous lensed QSOs. FLOYD D.J.E., BATE N.F. and WEBSTER R.L.
2007AJ....134..102S viz 77435 348 The Sloan Digital Sky Survey quasar catalog. IV. Fifth data release. SCHNEIDER D.P., HALL P.B., RICHARDS G.T., et al.
2007ApJ...661...19P 3 13 101 X-ray and optical flux ratio anomalies in quadruply lensed quasars. I. Zooming in on quasar emission regions. POOLEY D., BLACKBURNE J.A., RAPPAPORT S., et al.
2007ApJ...664...53A viz 35229 13 Photometric selection of QSO candidates from GALEX sources. ATLEE D.W. and GOULD A.
2007MNRAS.381.1591B 76           X         2 9 13 Smooth matter and source size in microlensing simulations of gravitationally lensed quasars. BATE N.F., WEBSTER R.L. and WYITHE J.S.B.
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...451..747E 39   K                 15 44 COSMOGRAIL: the COSmological MOnitoring of GRAvItational Lenses. II. SDSS J0924+0219: the redshift of the lensing galaxy, the quasar spectral variability and the Einstein rings. EIGENBROD A., COURBIN F., DYE S., et al.
2006A&A...455..773V viz 108221 545 A catalogue of quasars and active nuclei: 12th edition. VERON-CETTY M.-P. and VERON P.
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.
2006ApJ...637L..73K 1 7 20 A simple method to find all lensed quasars. KOCHANEK C.S., MOCHEJSKA B., MORGAN N.D., et al.
2006ApJ...639....1K 42   K                 7 58 Differential microlensing of the continuum and broad emission lines in
SDSS J0924+0219, the most anomalous lensed quasar.
2006ApJ...641...70O 38   K                 27 27 Spectroscopic redshifts for seven lens galaxies. OFEK E.O., MAOZ D., RIX H.-W., et al.
2006ApJ...642...22Y 38   K                 30 33 Halo structures of gravitational lens galaxies. YOO J., KOCHANEK C.S., FALCO E.E., et al.
2006ApJ...647..874M 40   K                 6 35 Microlensing of the lensed quasar
SDSS 0924+0219.
2006ApJ...648...67P 1 12 34 A strong X-ray flux ratio anomaly in the quadruply lensed quasar PG 1115+080. POOLEY D., BLACKBURNE J.A., RAPPAPORT S., et al.
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.
2006MNRAS.370.1339H 2 5 22 Isophotal shapes of elliptical/lenticular galaxies from the Sloan Digital Sky Survey. HAO C.N., MAO S., DENG Z.G., et al.
2006MNRAS.372.1692A 6 4 Substructure and the cusp and fold relations. AAZAMI A.B. and NATARAJAN P.
2005AJ....130..367S 46358 234 The Sloan Digital Sky Survey quasar catalog. III. Third data release. SCHNEIDER D.P., HALL P.B., RICHARDS G.T., et al.
2005ApJ...635...35K 30 52 Identifying lenses with small-scale structure. II. Fold lenses. KEETON C.R., GAUDI B.S. and PETTERS A.O.
2005MNRAS.361L..38O 10 9 Lens galaxy environments and anomalous flux ratios in gravitational lenses. OGURI M.
2004AAS...205.2806P 2 2 Possible futures for quadruply-imaged quasar systems due to micro-lensing by stars. PEEPLES M.S., SCHECHTER P.L. and WAMBSGANSS J.K.
2004ApJ...610...69K 3 19 142 Tests for substructure in gravitational lenses. KOCHANEK C.S. and DALAL N.
2004ApJ...613...77S 7 2 28 Qualitative aspects of quasar microlensing with two mass components: magnification patterns and probability distributions. SCHECHTER P.L., WAMBSGANSS J. and LEWIS G.F.
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.
2003AJ....126..666I 114 T K                 12 65
SDSS J092455.87+021924.9: an interesting gravitationally lensed quasar from the Sloan Digital Sky Survey.
2003AJ....126.2579S 16715 161 The Sloan Digital Sky Survey quasar catalog. II. First data release. SCHNEIDER D.P., FAN X., HALL P.B., 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.

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