SDSS J141111.27+121737.3 , the SIMBAD biblio

SDSS J141111.27+121737.3 , the SIMBAD biblio (68 results) C.D.S. - SIMBAD4 rel 1.8 - 2022.12.06CET12:45:12


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Title First 3 Authors
2004AJ....128..515F 210       D     X C       5 9 270 A survey of z>5.7 quasars in the Sloan Digital Sky Survey. III. Discovery of five additional quasars. FAN X., HENNAWI J.F., RICHARDS G.T., et al.
2006A&A...455..773V viz 108223 545 A catalogue of quasars and active nuclei: 12th edition. VERON-CETTY M.-P. and VERON P.
2006AJ....132..117F 24 19 939 Constraining the evolution of the ionizing background and the epoch of reionization with z∼6 quasars. II. A sample of 19 quasars. FAN X., STRAUSS M.A., BECKER R.H., et al.
2006ApJ...644...86S 1 30 65 Chandra observations of the highest redshift quasars from the Sloan Digital Sky Survey. SHEMMER O., BRANDT W.N., SCHNEIDER D.P., et al.
2006ARA&A..44..415F 86             C       1 23 548 Observational constraints on cosmic reionization. FAN X., CARILLI C.L. and KEATING B.
2006AJ....132.2127J 2 14 81 Probing the evolution of infrared properties of z∼6 quasars: Spitzer observations. JIANG L., FAN X., HINES D.C., et al.
2006NewAR..50..665F 2 19 83 Evolution of high-redshift quasars. FAN X.-H.
2007AJ....134..617W 1 19 54 Millimeter and radio observations of z ∼ 6 quasars. WANG R., CARILLI C.L., BEELEN A., et al.
2007AJ....134.1150J 7 7 101 Gemini near-infrared spectroscopy of luminous z ∼ 6 quasars: chemical abundances, black hole masses, and mg II absorption. JIANG L., FAN X., VESTERGAARD M., et al.
2007ApJ...669...32K 8 6 102 Black hole masses and enrichment of z ∼ 6 SDSS quasars. KURK J.D., WALTER F., FAN X., et al.
2008ApJ...687..848W 16       D               1 35 88 Thermal emission from warm dust in the most distant quasars. WANG R., CARILLI C.L., WAGG J., et al.
2009A&A...494L..25J 16       D               1 30 63 The metallicity of the most distant quasars. JUAREZ Y., MAIOLINO R., MUJICA R., et al.
2009MNRAS.395.1476R 40           X         1 13 66 A downturn in intergalactic C IV as redshift 6 is approached. RYAN-WEBER E.V., PETTINI M., MADAU P., et al.
2009MNRAS.395.1925M 168       D     X   F     4 15 17 Interpreting the transmission windows of distant quasars. MASELLI A., FERRARA A. and GALLERANI S.
2009A&A...505...97M 39           X         1 8 31 Discovery of a redshift 6.13 quasar in the UKIRT infrared deep sky survey. MORTLOCK D.J., PATEL M., WARREN S.J., et al.
2010Natur.464..380J 5 7 76 Dust-free quasars in the early Universe. JIANG L., FAN X., BRANDT W.N., et al.
2010ApJ...714..834C 16       D               1 27 65 Ionization near zones associated with quasars at z ∼ 6. CARILLI C.L., WANG R., FAN X., et al.
2010AJ....140..546W 42           X         1 21 187 Eddington-limited accretion and the black hole mass function at redshift 6. WILLOTT C.J., ALBERT L., ARZOUMANIAN D., et al.
2010A&A...518A..10V viz 15       D               1 168912 373 A catalogue of quasars and active nuclei: 13th edition. VERON-CETTY M.-P. and VERON P.
2010ApJ...721.1448S 15       D               1 89 133 The evolution of Lyman limit absorption systems to redshift six. SONGAILA A. and COWIE L.L.
2010A&A...523A..85G 16       D               2 39 94 The extinction law at high redshift and its implications. GALLERANI S., MAIOLINO R., JUAREZ Y., et al.
2011AJ....141..105P viz 16       D               1 9 25 Near-infrared photometric properties of 130,000 quasars: an SDSS-UKIDSS-matched catalog. PETH M.A., ROSS N.P. and SCHNEIDER D.P.
2011ApJ...733..108H 77           X         2 27 36 Hot-dust-poor quasars in mid-infrared and optically selected samples. HAO H., ELVIS M., CIVANO F., et al.
2011MNRAS.415.3237M 17       D               1 13 69 The first (nearly) model-independent constraint on the neutral hydrogen fraction at z ∼ 5-6. McGREER I.D., MESINGER A. and FAN X.
2011ApJ...739...56D 250       D     X         7 23 106 Evidence for non-evolving Fe II/Mg II ratios in rapidly accreting z ∼ 6 QSOs. DE ROSA G., DECARLI R., WALTER F., et al.
2011ApJ...743...21S 95       D S             3 13 57 Constraints on the universal C IV mass density at z ∼ 6 from early infrared spectra obtained with the Magellan FIRE spectrograph. SIMCOE R.A., COOKSEY K.L., MATEJEK M., et al.
2012MNRAS.419..390M 118           X   F     2 12 32 Probabilistic selection of high-redshift quasars. MORTLOCK D.J., PATEL M., WARREN S.J., et al.
2012ApJ...761..112M viz 16       D               7 47 35 A survey of Mg II absorption at 2 < z < 6 with Magellan/FIRE. I. Sample and evolution of the Mg II frequency. MATEJEK M.S. and SIMCOE R.A.
2013ApJ...764....9M viz 16       D               27 231 12 Mg II absorption at 2 < z < 6 with Magellan/FIRE. II. A longitudinal study of H I, metals, and ionization in galactic halos. MATEJEK M.S., SIMCOE R.A., COOKSEY K.L., et al.
2013MNRAS.428..226P viz 16       D               1 23 10 Finding new high-redshift quasars by asking the neighbours. POLSTERER K.L., ZINN P.-C. and GIESEKE F.
2013ApJ...768..173H 157             C F     2 29 14 On inferring extinction laws in z ∼ 6 quasars as signatures of supernova dust. HJORTH J., VREESWIJK P.M., GALL C., et al.
2013ApJ...779..104J viz 39           X         1 234 13 Physical properties of luminous dust-poor quasars. JUN H.D. and IM M.
2014MNRAS.438.2765C 16       D               1 60 33 The dust content of QSO hosts at high redshift. CALURA F., GILLI R., VIGNALI C., et al.
2014ApJ...785..154L 95       D       C       12 69 58 Spectral energy distributions of QSOs at z > 5: common active galactic nucleus-heated dust and occasionally strong star-formation. LEIPSKI C., MEISENHEIMER K., WALTER F., et al.
2014AJ....148...14B 16       D               2 44 80 Discovery of eight z ∼ 6 quasars from Pan-STARRS1. BANADOS E., VENEMANS B.P., MORGANSON E., et al.
2014A&A...568A...1M 144     A     X         4 8 24 Primordial environment of super massive black holes: large-scale galaxy overdensities around z ∼ 6 quasars with LBT. MORSELLI L., MIGNOLI M., GILLI R., et al.
2015MNRAS.447..499M 21       D               1 23 134 Model-independent evidence in favour of an end to reionization by z ∼ 6. McGREER I.D., MESINGER A. and D'ODORICO V.
2015ApJ...804..118B 16       D               1 56 23 Constraining the radio-loud fraction of quasars at z > 5.5. BANADOS E., VENEMANS B.P., MORGANSON E., et al.
2015AJ....149..188J 17       D               1 16 29 Discovery of eight z ∼ 6 quasars in the Sloan Digital Sky Survey overlap regions. JIANG L., McGREER I.D., FAN X., et al.
2015ApJ...815...33R viz 16       D               1 814 27 A Hubble diagram for quasars. RISALITI G. and LUSSO E.
2016ApJ...816...85L 16       D               1 136 17 The contribution of host galaxies to the infrared energy output of z≳5.0 quasars. LYU J., RIEKE G.H. and ALBERTS S.
2016ApJ...819...24W viz 16       D               1 796 26 A survey of luminous high-redshift quasars with SDSS and WISE. I. Target selection and optical spectroscopy. WANG F., WU X.-B., FAN X., et al.
2016ARA&A..54..313M 83             C       1 25 64 The evolution of the intergalactic medium. McQUINN M.
2016ApJ...833..222J 17       D               1 52 64 The final SDSS high-redshift quasar sample of 52 quasars at z>5.7. JIANG L., McGREER I.D., FAN X., et al.
2017ApJ...834...83M 16       D               1 24 19 No overdensity of Lyman-alpha emitting galaxies around a quasar at z ∼ 5.7. MAZZUCCHELLI C., BANADOS E., DECARLI R., et al.
2017ApJ...835..257L 222       D     X C       5 122 10 Dust-deficient Palomar-Green quasars and the diversity of AGN intrinsic IR emission. LYU J., RIEKE G.H. and SHI Y.
2017ApJ...836L...1T 16       D               1 21 13 On the accretion rates and radiative efficiencies of the highest-redshift quasars. TRAKHTENBROT B., VOLONTERI M. and NATARAJAN P.
2017ApJ...839...27W 18       D               1 8 22 First discoveries of z > 6 quasars with the DECam Legacy Survey and UKIRT Hemisphere Survey. WANG F., FAN X., YANG J., et al.
2017ApJ...840...24E 16       D               3 35 30 Implications of z ∼ 6 quasar proximity zones for the epoch of reionization and quasar lifetimes. EILERS A.-C., DAVIES F.B., HENNAWI J.F., et al.
2017A&A...603A.128N 99       D     X         3 30 14 The X-ray properties of z ∼ 6 luminous quasars. NANNI R., VIGNALI C., GILLI R., et al.
2017A&A...606A..23B 1 5 5 Primordial environment of supermassive black holes. II. Deep Y- and J-band images around the z∼ 6.3 quasar SDSS J1030+0524. BALMAVERDE B., GILLI R., MIGNOLI M., et al.
2018ApJ...864...53E 17       D               3 49 6 The opacity of the intergalactic medium measured along quasar sightlines at z ∼ 6. EILERS A.-C., DAVIES F.B. and HENNAWI J.F.
2018MNRAS.479.1055B 100       D         F     2 60 14 New constraints on Lyman-α opacity with a sample of 62 quasars at z > 5.7. BOSMAN S.E.I., FAN X., JIANG L., et al.
2018ApJ...866..159V 17       D               1 98 1 Dust emission in an accretion-rate-limited sample of z >= 6 quasars. VENEMANS B.P., DECARLI R., WALTER F., et al.
2018ApJ...869..150M 17       D               1 111 ~ Subaru High-z Exploration of Low-Luminosity Quasars (SHELLQs). V. Quasar luminosity function and contribution to cosmic reionization at z = 6. MATSUOKA Y., STRAUSS M.A., KASHIKAWA N., et al.
2019MNRAS.483...19M 145       D     X C       3 26 ~ The role of galaxies and AGNs in reionizing the IGM - II. Metal-tracing the faint sources of reionization at 5 <= z <= 6. MEYER R.A., BOSMAN S.E.I., KAKIICHI K., et al.
2019ApJ...879..117K 17       D               1 52 ~ High star formation rates of low Eddington ratio quasars at z >= 6. KIM Y. and IM M.
2019ApJ...881...23E 17       D               2 19 ~ Anomaly in the opacity of the post-reionization intergalactic medium in the Lyα and Lyβ forest. EILERS A.-C., HENNAWI J.F., DAVIES F.B., et al.
2019ApJ...882...77C 17       D               3 73 ~ Heavy element absorption systems at 5.0 < z < 6.8: metal-poor neutral gas and a diminishing signature of highly ionized circumgalactic matter. COOPER T.J., SIMCOE R.A., COOKSEY K.L., et al.
2019ApJ...883..163B viz 17       D               1 199 ~ The evolution of O I over 3.2 < z < 6.5: reionization of the circumgalactic medium. BECKER G.D., PETTINI M., RAFELSKI M., et al.
2019A&A...631L..10D 43           X         1 12 ~ Testing the paradigm: First spectroscopic evidence of a quasar-galaxy Mpc-scale association at cosmic dawn. DECARLI R., MIGNOLI M., GILLI R., et al.
2019A&A...631A.120S 85             C       1 53 ~ Quasars as standard candles II. The non-linear relation between UV and X-ray emission at high redshifts. SALVESTRINI F., RISALITI G., BISOGNI S., et al.
2020A&A...642A.150L viz 17       D               1 2429 ~ Quasars as standard candles. III. Validation of a new sample for cosmological studies. LUSSO E., RISALITI G., NARDINI E., et al.
2020ApJ...903...60I 17       D               1 39 ~ Subaru High-z Exploration of Low-Luminosity Quasars (SHELLQs). XI. Proximity zone analysis for faint quasar spectra at z ∼ 6. ISHIMOTO R., KASHIKAWA N., ONOUE M., et al.
2021AJ....161...45O viz 18       D               4 727 ~ The third data release of the KODIAQ survey. O'MEARA J.M., LEHNER N., HOWK J.C., et al.
2021MNRAS.508.1853B 18       D               1 83 ~ The mean free path of ionizing photons at 5 < z < 6: evidence for rapid evolution near reionization. BECKER G.D., D'ALOISIO A., CHRISTENSON H.M., et al.
2021ApJ...923..223Z 18       D               1 55 ~ Chasing the tail of cosmic reionization with dark gap statistics in the Lyα forest over 5 < z < 6. ZHU Y., BECKER G.D., BOSMAN S.E.I., et al.
2022MNRAS.514...55B 65       D     X         2 66 ~ Hydrogen reionization ends by z = 5.3: Lyman-α optical depth measured by the XQR-30 sample. BOSMAN S.E.I., DAVIES F.B., BECKER G.D., et al.

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2022.12.06-12:45:13

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