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QSO J0226+0302 , the SIMBAD biblio (64 results) | C.D.S. - SIMBAD4 rel 1.8 - 2024.04.19CEST08:23:54 |
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 |
---|---|---|---|---|---|---|---|---|---|
2015ApJ...801L..11V | 490 | K A | D | S X C | 11 | 6 | 158 | The identification of z-dropouts in Pan-STARRS1: three quasars at 6.5< z< 6.7. | VENEMANS B.P., BANADOS E., DECARLI R., et al. |
2015ApJ...804..118B | 40 | X | 1 | 56 | 88 | Constraining the radio-loud fraction of quasars at z > 5.5. | BANADOS E., VENEMANS B.P., MORGANSON E., et al. | ||
2015ApJ...805L...8B | 941 | A | X C | 23 | 4 | 35 | Bright [C II] 158 µm emission in a quasar host galaxy at z = 6.54. | BANADOS E., DECARLI R., WALTER F., et al. | |
2016ApJ...816...37V | 172 | X C | 3 | 14 | 165 | Bright [C ii] and dust emission in three z > 6.6 quasar host galaxies observed by ALMA. | VENEMANS B.P., WALTER F., ZSCHAECHNER L., et al. | ||
2016ApJ...819...24W | 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. | ||
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 | 182 | D | X | 5 | 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. | |
2017MNRAS.468.4702R | 88 | X | 2 | 13 | 94 | Eight new luminous z ≥ 6 quasars discovered via SED model fitting of VISTA, WISE and Dark Energy Survey Year 1 observations. | REED S.L., McMAHON R.G., MARTINI P., et al. | ||
2017ApJ...845..154V | 45 | X | 1 | 15 | 70 | Molecular gas in three z ∼ 7 quasar host galaxies. | VENEMANS B.P., WALTER F., DECARLI R., et al. | ||
2017ApJ...848...78F | 43 | X | 1 | 19 | 42 | Mapping the Lyα emission around a z ∼ 6.6 QSO with MUSE: extended emission and a companion at a close separation. | FARINA E.P., VENEMANS B.P., DECARLI R., et al. | ||
2017ApJ...849...91M | 514 | D | X C | 12 | 22 | 227 | Physical properties of 15 quasars at z >= 6.5. | MAZZUCCHELLI C., BANADOS E., VENEMANS B.P., et al. | |
2018ApJ...854...97D | 20 | D | 1 | 50 | 209 | An ALMA [C II] survey of 27 quasars at z > 5.94. | DECARLI R., WALTER F., VENEMANS B.P., et al. | ||
2018ApJ...855..106D | 435 | D | X C | 10 | 3 | 22 | A new method to measure the post-reionization ionizing background from the joint distribution of Lyα and Lyβ forest transmission. | DAVIES F.B., HENNAWI J.F., EILERS A.-C., et al. | |
2018ApJ...856..109O | 43 | X | 1 | 9 | 22 | Large-scale environment of a z = 6.61 luminous quasar probed by Lyα emitters and Lyman break galaxies. | OTA K., VENEMANS B.P., TANIGUCHI Y., et al. | ||
2018ApJ...864...53E | 142 | D | X | 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. | |
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. | ||
2019ApJ...872L..29S | 84 | C | 1 | 26 | 2 | Black versus dark: rapid growth of supermassive black holes in dark matter halos at z ∼ 6. | SHIMASAKU K. and IZUMI T. | ||
2019AJ....157..236Y | 49 | X | 1 | 11 | 84 | Exploring reionization-era quasars. IV. Discovery of six new z >= 6.5 quasars with DES, VHS, and unWISE photometry. | YANG J., WANG F., FAN X., et al. | ||
2019MNRAS.487.3305M | 17 | D | 1 | 230 | 47 | New constraints on quasar evolution: broad-line velocity shifts over 1.5 <= z <= 7.5. | MEYER R.A., BOSMAN S.E.I. and ELLIS R.S. | ||
2019ApJ...879..117K | 17 | D | 1 | 52 | ~ | High star formation rates of low Eddington ratio quasars at z >= 6. | KIM Y. and IM M. | ||
2019MNRAS.488.1035K | 68 | X | 1 | 6 | 156 | Evolution of the AGN UV luminosity function from redshift 7.5. | KULKARNI G., WORSECK G. and HENNAWI J.F. | ||
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 | 2 | 73 | 40 | 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 | 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. | ||
2019A&A...630A.118V | 19 | D | X | 1 | 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. | |
2019ApJ...884...30W | 187 | D | X | 5 | 34 | 128 | Exploring reionization-era quasars. III. Discovery of 16 quasars at 6.4 <= z <= 6.9 with DESI Legacy imaging Surveys and the UKIRT Hemisphere Survey and quasar luminosity function at z ∼ 6.7. | WANG F., YANG J., FAN X., et al. | |
2019MNRAS.490.2542P | 17 | D | 1 | 2245 | ~ | Unveiling the weak radio quasar population at z≥4. | PERGER K., FREY S., GABANYI K.E., et al. | ||
2019ApJ...887..196F | 17 | D | 4 | 178 | 60 | The REQUIEM survey. I. A search for extended Lyα nebular emission around 31 z > 5.7 quasars. | FARINA E.P., ARRIGONI-BATTAIA F., COSTA T., et al. | ||
2019PASJ...71..109H | 85 | C | 2 | 25 | 33 | Detections of [O III] 88 μm in two quasars in the reionization epoch. | HASHIMOTO T., INOUE A.K., TAMURA Y., et al. | ||
2020MNRAS.491.3884P | 102 | D | C | 4 | 14 | ~ | X-ray properties of z >= 6.5 quasars. | PONS E., McMAHON R.G., BANERJI M., et al. | |
2020MNRAS.494..789R | 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. | ||
2020ApJ...895...74N | 17 | D | 1 | 41 | 15 | ALMA observations of quasar host galaxies at z ≃ 4.8. | NGUYEN N.H., LIRA P., TRAKHTENBROT B., et al. | ||
2020MNRAS.496..888N | 60 | D | X | 2 | 8 | ~ | Effects of the Hubble parameter on the cosmic growth of the first quasars. | NUNES R.C. and PACUCCI F. | |
2020ApJ...900...12L | 315 | D | X | 8 | 53 | 11 | SCUBA2 High rEdshift bRight quasaR surveY: far-infrared properties and weak-line features. | LI Q., WANG R., FAN X., et al. | |
2020ApJ...903L..18Z | 17 | D | 1 | 14 | ~ | Effects of spin on constraining the seeds and growth of >=109M☉ supermassive black holes in z > 6.5 quasars. | ZHANG X., LU Y. and FANG T. | ||
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. | ||
2020ApJ...904...26Y | 104 | D | C | 6 | 32 | 67 | Measurements of the z ∼ 6 intergalactic medium optical depth and transmission spikes using a new z > 6.3 quasar sample. | YANG J., WANG F., FAN X., et al. | |
2020ApJ...904..130V | 18 | D | 3 | 54 | 75 | Kiloparsec-scale ALMA imaging of [C II] and dust continuum emission of 27 quasar host galaxies at z ∼ 6. | VENEMANS B.P., WALTER F., NEELEMAN M., et al. | ||
2020ApJ...904..131N | 18 | D | 1 | 28 | 36 | No evidence for [C II] halos or high-velocity outflows in z >= 6 quasar host galaxies. | NOVAK M., VENEMANS B.P., WALTER F., et al. | ||
2020ApJ...905...51S | 359 | D | S X | 8 | 42 | 62 | The X-SHOOTER/ALMA sample of quasars in the epoch of reionization. I. NIR spectral modeling, iron enrichment, and broad emission line properties. | SCHINDLER J.-T., FARINA E.P., BANADOS E., et al. | |
2021ApJ...908...53W | 150 | D | X | 4 | 13 | 37 | Revealing the accretion physics of supermassive black holes at redshift z ∼ 7 with Chandra and infrared observations. | WANG F., FAN X., YANG J., et al. | |
2021ApJ...911..141N | 237 | D | X | 6 | 28 | 58 | The kinematics of z >= 6 quasar host galaxies. | NEELEMAN M., NOVAK M., VENEMANS B.P., et al. | |
2021ApJ...921...88M | 104 | D | C | 2 | 18 | 15 | Estimating the effective lifetime of the z ∼ 6 quasar population from the composite proximity zone profile. | MOREY K.A., EILERS A.-C., DAVIES F.B., et al. | |
2021A&A...656A.137G | 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. | ||
2021ApJ...923..223Z | 17 | D | 2 | 56 | 35 | 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.512.2389D | 242 | D | X | 6 | 143 | 10 | The evolution of the Si IV content in the Universe from the epoch of reionization to cosmic noon. | D'ODORICO V., FINLATOR K., CRISTIANI S., et al. | |
2022ApJ...929...86D | 242 | D | S X | 5 | 20 | 4 | The Decoupled Kinematics of High-z QSO Host Galaxies and Their Lyα Halos. | DRAKE A.B., NEELEMAN M., VENEMANS B.P., et al. | |
2022ApJ...931...29C | 19 | D | 1 | 10 | 11 | Measuring the Density Fields around Bright Quasars at z ∼ 6 with XQR-30 Spectra. | CHEN H., EILERS A.-C., BOSMAN S.E.I., 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. | ||
2022A&A...662A..60D | 287 | D | X | 7 | 40 | 17 | Molecular gas in z ∼ 6 quasar host galaxies. | DECARLI R., PENSABENE A., VENEMANS B., et al. | |
2022A&A...663A.159V | 18 | D | 1 | 10 | 3 | An X-ray fading, UV brightening QSO at z ≃ 6. | VITO F., MIGNOLI M., GILLI R., et al. | ||
2022ApJ...941..106F | 18 | D | 5 | 41 | 26 | The X-shooter/ALMA Sample of Quasars in the Epoch of Reionization. II. Black Hole Masses, Eddington Ratios, and the Formation of the First Quasars. | FARINA E.P., SCHINDLER J.-T., WALTER F., 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...944..134B | 1213 | A | D | X C | 26 | 8 | 3 | Molecular Outflows in z > 6 Unobscured QSO Hosts Driven by Star Formation. | BUTLER K.M., VAN DER WERF P.P., TOPKARAS T., et al. |
2023ApJ...951L...5Y | 159 | D | X C | 3 | 9 | 4 | A SPectroscopic Survey of Biased Halos in the Reionization Era (ASPIRE): A First Look at the Rest-frame Optical Spectra of z > 6.5 Quasars Using JWST. | YANG J., WANG F., FAN X., et al. | |
2023MNRAS.523.1399D | 19 | D | 4 | 42 | 4 | XQR-30: The ultimate XSHOOTER quasar sample at the reionization epoch. | D'ODORICO V., BANADOS E., BECKER G.D., et al. | ||
2023A&A...676A..71M | 65 | D | X | 2 | 42 | ~ | XQR-30: Black hole masses and accretion rates of 42 z ≳ 6 quasars. | MAZZUCCHELLI C., BISCHETTI M., D'ODORICO V., et al. | |
2023ApJ...954..164T | 19 | D | 1 | 102 | ~ | Modeling the Central Supermassive Black Hole Mass of Quasars via the LSTM Approach. | TABASI S.S., SALMANI R.V., KHALILIYAN P., et al. | ||
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. | ||
2023A&A...678A.201Z | 19 | D | 1 | 20 | ~ | HYPerluminous quasars at the Epoch of ReionizatION (HYPERION): A new regime for the X-ray nuclear properties of the first quasars. | ZAPPACOSTA L., PICONCELLI E., FIORE F., et al. | ||
2023ApJ...958..132N | 2081 | A | S X C | 43 | 3 | ~ | ALMA 400 pc Imaging of a z = 6.5 Massive Warped Disk Galaxy. | NEELEMAN M., WALTER F., DECARLI R., et al. | |
2024ApJ...963L..28Z | 400 | X C | 7 | 6 | ~ | A SPectroscopic survey of biased halos In the Reionization Era (ASPIRE): Impact of Galaxies on the Circumgalactic Medium Metal Enrichment at z > 6 Using the JWST and VLT. | ZOU S., CAI Z., WANG F., et al. |