SDSS J163033.89+401209.6 , the SIMBAD biblio

SDSS J163033.89+401209.6 , the SIMBAD biblio (86 results) C.D.S. - SIMBAD4 rel 1.8 - 2024.07.13CEST09:25:17


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Title First 3 Authors
2003A&A...406L..55B 18 6 336 Dust emission from the most distant quasars. BERTOLDI F., CARILLI C.L., COX P., et al.
2003AJ....125.1649F 24 10 722 A survey of z>5.7 quasars in the Sloan Digital Sky Survey. II. Discovery of three additional quasars at z>6. FAN X., STRAUSS M.A., SCHNEIDER D.P., et al.
2003ApJ...599..759C 2 6 53 Combining Wilkinson Microwave Anisotropy Probe and Sloan Digital Sky Survey quasar data on reionization constrains cosmological parameters and star formation efficiency. CHIU W.A., FAN X. and OSTRIKER J.P.
2004ApJ...614...69I 1         O           12 41 Fe II/Mg II emission-line ratios of QSOs. II. z > 6 objects. IWAMURO F., KIMURA M., ETO S., et al.
2004MNRAS.351L..29R 3 9 90 Submillimetre observations of z > 6 quasars. ROBSON I., PRIDDEY R.S., ISAAK K.G., et al.
2005ApJ...628..575W 2 7 59 Improved constraints on the neutral intergalactic hydrogen surrounding quasars at redshifts z > 6. WYITHE J.S.B., LOEB A. and CARILLI C.
2005ApJ...634..715W 2 7 53 Prospects for redshifted 21 cm observations of quasar H II regions. WYITHE J.S.B., LOEB A. and BARNES D.G.
2006A&A...455..773V viz 108224 628 A catalogue of quasars and active nuclei: 12th edition. VERON-CETTY M.-P. and VERON P.
2006AJ....132..117F 31 19 1180 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 87 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 88             C       1 23 675 Observational constraints on cosmic reionization. FAN X., CARILLI C.L. and KEATING B.
2006MmSAI..77..635F 18 4 Evolution of high-redshift quasars. FAN X.
2006AJ....132.2127J 4 14 114 Probing the evolution of infrared properties of z∼6 quasars: Spitzer observations. JIANG L., FAN X., HINES D.C., et al.
2006ApJ...652..157M 3 6 37 Discovery of a z = 6.1 radio-loud quasar in the NOAO Deep Wide Field Survey. McGREER I.D., BECKER R.H., HELFAND D.J., et al.
2007MNRAS.374..493B 15 4 126 The nature and evolution of the highly ionized near-zones in the absorption spectra of z ≃ 6 quasars. BOLTON J.S. and HAEHNELT M.G.
2006NewAR..50..665F 3 19 128 Evolution of high-redshift quasars. FAN X.-H.
2007AJ....134..617W 1 19 70 Millimeter and radio observations of z ∼ 6 quasars. WANG R., CARILLI C.L., BEELEN A., et al.
2007A&A...472L..33M 215     A   O X C       5 6 60 Molecular gas in QSO host galaxies at z>5. MAIOLINO R., NERI R., BEELEN A., et al.
2008MNRAS.386..359G 41           X         1 7 50 Glimpsing through the high-redshift neutral hydrogen fog. GALLERANI S., FERRARA A., FAN X., et al.
2008ApJ...687..848W 17       D               1 35 143 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 92 The metallicity of the most distant quasars. JUAREZ Y., MAIOLINO R., MUJICA R., et al.
2009MNRAS.394..577O 57       D     X         2 9 80 ΛCDM predictions for galaxy protoclusters - I. The relation between galaxies, protoclusters and quasars at z ∼ 6. OVERZIER R.A., GUO Q., KAUFFMANN G., et al.
2009ApJ...695..809K 735       D     X C F     18 45 60 The environments of high-redshift quasi-stellar objects. KIM S., STIAVELLI M., TRENTI M., et al.
2009MNRAS.395.1925M 91       D         F     2 15 17 Interpreting the transmission windows of distant quasars. MASELLI A., FERRARA A. and GALLERANI S.
2009A&A...508..133G viz 15       D               1 99 19 Damped and sub-damped Lyman-α absorbers in z > 4 QSOs. GUIMARAES R., PETITJEAN P., DE CARVALHO R.R., et al.
2010ApJ...714..834C 16       D               1 27 74 Ionization near zones associated with quasars at z ∼ 6. CARILLI C.L., WANG R., FAN X., et al.
2010A&A...518A..10V viz 15       D               1 168912 597 A catalogue of quasars and active nuclei: 13th edition. VERON-CETTY M.-P. and VERON P.
2010A&A...523A..85G 16       D               2 39 127 The extinction law at high redshift and its implications. GALLERANI S., MAIOLINO R., JUAREZ Y., et al.
2011ARep...55..302K 4 4 The estimation of black-hole masses in distant radio galaxies. KHABIBULLINA M.L. and VERKHODANOV O.V.
2011ApJ...735...93B 170       D     X C       4 17 55 High-redshift metals. II. Probing reionization galaxies with low-ionization absorption lines at redshift six. BECKER G.D., SARGENT W.L.W., RAUCH M., et al.
2011ApJ...736...66R 16       D               1 7 20 The dark side of QSO formation at high redshifts. ROMANO-DIAZ E., SHLOSMAN I., TRENTI M., et al.
2011ApJ...739...56D 18       D               3 23 183 Evidence for non-evolving Fe II/Mg II ratios in rapidly accreting z ∼ 6 QSOs. DE ROSA G., DECARLI R., WALTER F., et al.
2011AJ....142..101W 16       D               1 25 81 Far-infrared and molecular CO emission from the host galaxies of faint quasars at z ∼ 6. WANG R., WAGG J., CARILLI C.L., et al.
2012RAA....12..865F 33 14 Observations of the first light and the epoch of reionization. FAN X.
2013ApJ...764...72M 17       D               1 19 44 High-z quasars in the rh= ct universe. MELIA F.
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 156             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...778..113B 94       D       C       2 18 17 WISE detections of known QSOs at redshifts greater than six. BLAIN A.W., ASSEF R., STERN D., et al.
2014MNRAS.438.2765C 16       D               1 60 42 The dust content of QSO hosts at high redshift. CALURA F., GILLI R., VIGNALI C., et al.
2014ApJ...785..154L 94       D       C       6 69 108 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 17       D               2 44 128 Discovery of eight z ∼ 6 quasars from Pan-STARRS1. BANADOS E., VENEMANS B.P., MORGANSON E., et al.
2015MNRAS.447..499M 142       D     X   F     3 23 349 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 88 Constraining the radio-loud fraction of quasars at z > 5.5. BANADOS E., VENEMANS B.P., MORGANSON E., et al.
2015AJ....149..188J 16       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               1 814 170 A Hubble diagram for quasars. RISALITI G. and LUSSO E.
2016ApJ...816...85L 16       D               1 136 22 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 79 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 89             C       1 25 230 The evolution of the intergalactic medium. McQUINN M.
2016ApJ...833..222J 20       D               1 52 233 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 18       D               1 24 54 No overdensity of Lyman-alpha emitting galaxies around a quasar at z ∼ 5.7. MAZZUCCHELLI C., BANADOS E., DECARLI R., et al.
2017ApJ...836L...1T 18       D               1 21 55 On the accretion rates and radiative efficiencies of the highest-redshift quasars. TRAKHTENBROT B., VOLONTERI M. and NATARAJAN P.
2017ApJ...840...24E 19       D               3 35 121 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.
2017ApJ...842...88S viz 16       D               1 2278 6 A redshift survey of the nearby galaxy cluster Abell 2199: comparison of the spatial and kinematic distributions of galaxies with the intracluster medium. SONG H., HWANG H.S., PARK C., et al.
2017A&A...603A.128N 99       D     X         3 30 74 The X-ray properties of z ∼ 6 luminous quasars. NANNI R., VIGNALI C., GILLI R., et al.
2018ApJ...864...53E 18       D               4 49 104 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 101       D         F     2 60 137 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 16       D               1 98 72 Dust emission in an accretion-rate-limited sample of z >= 6 quasars. VENEMANS B.P., DECARLI R., WALTER F., et al.
2018MNRAS.480.2628F 66           X         1 2 50 Reionization in Technicolor. FINLATOR K., KEATING L., OPPENHEIMER B.D., et al.
2018ApJ...869..150M 17       D               1 111 151 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.
2019ApJ...873...35S viz 19       D               1 50 118 Gemini GNIRS near-infrared spectroscopy of 50 quasars at z >= 5.7. SHEN Y., WU J., JIANG L., 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...883..163B viz 17       D               1 199 41 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.
2019MNRAS.489.1206H 143       D     X C       3 26 36 The diverse galaxy counts in the environment of high-redshift massive black holes in Horizon-AGN. HABOUZIT M., VOLONTERI M., SOMERVILLE R.S., et al.
2019A&A...630A.118V 61       D     X         2 28 69 The X-ray properties of z > 6 quasars: no evident evolution of accretion physics in the first Gyr of the Universe. VITO F., BRANDT W.N., BAUER F.E., et al.
2019A&A...631A.120S 84             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.
2019MNRAS.490.2542P viz 17       D               1 2245 ~ Unveiling the weak radio quasar population at z≥4. PERGER K., FREY S., GABANYI K.E., et al.
2020MNRAS.494..789R viz 17       D               1 489 25 The near and mid-infrared photometric properties of known redshift z >= 5 quasars. ROSS N.P. and CROSS N.J.G.
2020A&A...642A.150L viz 17       D               1 2429 92 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 13 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 17       D               3 727 ~ The third data release of the KODIAQ survey. O'MEARA J.M., LEHNER N., HOWK J.C., et al.
2021MNRAS.503.2349D 17       D               1 39 20 Infrared emission of z ∼ 6 galaxies: AGN imprints. DI MASCIA F., GALLERANI S., BEHRENS C., et al.
2021MNRAS.506.3946D 17       D               1 41 13 The dust attenuation law in z ∼ 6 quasars. DI MASCIA F., GALLERANI S., FERRARA A., et al.
2021A&A...656A.137G viz 17       D               1 493 12 Low frequency radio properties of the z > 5 quasar population. GLOUDEMANS A.J., DUNCAN K.J., ROTTGERING H.J.A., et al.
2022ApJ...925..121W 108       D     X         3 34 13 Metallicity in Quasar Broad-line Regions at Redshift ∼ 6. WANG S., JIANG L., SHEN Y., et al.
2022MNRAS.514...55B 19       D               1 67 95 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.
2022MNRAS.514.1672V 18       D               1 17 4 Feedback effect on the observable properties of z > 6 AGN. VITO F., DI MASCIA F., GALLERANI S., et al.
2022MNRAS.514.2855P 18       D               2 23 1 Lensing in the darkness: a Bayesian analysis of 22 Chandra sources at z >= 6 shows no evidence of lensing. PACUCCI F., FOORD A., GORDON L., et al.
2022MNRAS.515.5914I 2241     A D     X C F     49 5 5 The physical origin for spatially large scatter of IGM opacity at the end of reionization: The IGM Lyα opacity-galaxy density relation. ISHIMOTO R., KASHIKAWA N., KASHINO D., et al.
2022MNRAS.517.2659W 18       D               1 37 4 Demographics of z ∼ 6 quasars in the black hole mass-luminosity plane. WU J., SHEN Y., JIANG L., et al.
2023ApJ...942...59J 19       D               1 53 7 (Nearly) Model-independent Constraints on the Neutral Hydrogen Fraction in the Intergalactic Medium at z ∼ 5-7 Using Dark Pixel Fractions in Lyα and Lyβ Forests. JIN X., YANG J., FAN X., et al.
2023ApJ...943...67S viz 19       D               1 130 7 The Pan-STARRS1 z > 5.6 Quasar Survey. III. The z ≈ 6 Quasar Luminosity Function. SCHINDLER J.-T., BANADOS E., CONNOR T., et al.
2023ApJ...944..159F 19       D               1 168 2 In Situ Star Formation in Accretion Disks and Explanation of Correlation between the Black Hole Mass and Metallicity in Active Galactic Nuclei. FAN X. and WU Q.
2023A&A...676A.115P 19       D               1 44 ~ Unraveling the formation histories of the first supermassive black holes with the Square Kilometre Array's pulsar timing array. PADMANABHAN H. and LOEB A.
2023MNRAS.525.4093G 93               F     1 66 ~ Measuring the photoionization rate, neutral fraction, and mean free path of H I ionizing photons at 4.9 ≤ z ≤ 6.0 from a large sample of XShooter and ESI spectra. GAIKWAD P., HAEHNELT M.G., DAVIES F.B., et al.
2023ApJ...955..138C 299       D     X C       6 7 ~ The Relationship between IGM Lyα Opacity and Galaxy Density near the End of Reionization. CHRISTENSON H.M., BECKER G.D., D'ALOISIO A., et al.

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