QSO B0329-385 , the SIMBAD biblio

QSO B0329-385 , the SIMBAD biblio (76 results) C.D.S. - SIMBAD4 rel 1.8 - 2022.06.26CEST21:49:00


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Title First 3 Authors
1978VA.....22..321S 76 52 Quasars: observed properties of optically-selected objects at large redshifts. SMITH M.G.
1980ApJS...42..333O 123 158 Discovery and spectrophotometry of the quasars in the -40 zone of the CTIO Curtis Schmidt survey. OSMER P.S. and SMITH M.G.
1981ApJ...244....5C 12 24 Multifrequency radio observations of optically selected quasars. CONDON J.J., CONDON M.A., JAUNCEY D.L., et al.
1984ApJ...285..555A 129 14 Properties of the quasars in the Sculptor region II. ARP H.
1985A&AS...61..225A 271 40 UBV photometry of quasars and quasar candidates. II. ADAM G.
1989A&A...209...27P 86 39 The evolution of the Eddington ratio for active galactic nuclei. PADOVANI P.
1989ApJ...342..666E 2 18 149 H-alpha emission lines in high-redshift quasars. ESPEY B.R., CARSWELL R.F., BAILEY J.A., et al.
1990ApJ...358...18C 28 6 A new mechanism for small redshift of H I broad lines with respect to CIV line in quasars. CHENG F.H., YOU J.H. and YAN M.
1990MNRAS.244..207M 1 33 156 The bimodal radio luminosity function of quasars. MILLER L., PEACOCK J.A. and MEAD A.R.G.
1991ApJ...370..487C 62 28 The shape of the ultraviolet continuum of quasars and intergalactic dust. CHENG F.H., GASKELL C.M. and KORATKAR A.
1992ApJ...391..577C 17 28 Comparisons of the emission-line properties of radio-loud and radio-quiet QSOs at high redshift. CORBIN M.R.
1992PASP..104..678S 530 19 Accurate positions and finding charts for 528 high-redshift, luminous quasars. SCHNEIDER D.P., BAHCALL J.N., SAXE D.H., et al.
1993AJ....105.2064S 452 57 Gravitatioanl lensing statistics based on a large sample of highly luminous quasars. SURDEJ J., CLAESKENS J.F., CRAMPTON D., et al.
1993ApJ...402...69M 166 36 The Hubble Space Telescope snapshot survey. III. Further observations in search of gravitationally lensed quasars. MAOZ D., BAHCALL J.N., DOXSEY R., et al.
1993ApJ...409...28M viz 507 110 The Hubble Space Telescope snapshot survey. IV. A summary of the search for gravitationally lensed quasars. MAOZ D., BAHCALL J.N., SCHNEIDER D.P., et al.
1993ApJ...415..517Z 140 54 Does a luminosity-dependent continuum shape cause the Baldwin effect? ZHENG W. and MALKAN M.A.
1993ApJS...87..451H viz 14       D               7278 308 A revised and updated catalog of quasi-stellar objects. HEWITT A. and BURBIDGE G.
1997A&A...318...15C 17 2 2.2 and 1300 µm observations of a complete sample of southern quasars. CHINI R., KREYSA E. and WARGAU W.F.
2002A&A...396L..11B 17 1 51 The warm-hot intergalactic medium at z∼2.2: Metal enrichment and ionization source. BERGERON J., ARACIL B., PETITJEAN P., et al.
2003ApJ...596..768S viz 4 21 268 Metallicity of the intergalactic medium using pixel statistics. II. The distribution of metals as traced by C IV. SCHAYE J., AGUIRRE A., KIM T.-S., et al.
2003ApJ...597L..97P 18 31 The clustering of intergalactic metals. PICHON C., SCANNAPIECO E., ARACIL B., et al.
2004A&A...417..853C 7 15 210 Probing the cosmological variation of the fine-structure constant: Results based on VLT-UVES sample. CHAND H., SRIANAND R., PETITJEAN P., et al.
2004A&A...419..811A 2 18 79 Metals in the intergalactic medium. ARACIL B., PETITJEAN P., PICHON C., et al.
2004ApJ...614..547S 1 28 111 Near-infrared spectroscopy of high-redshift active galactic nuclei. I. A metallicity-accretion rate relationship. SHEMMER O., NETZER H., MAIOLINO R., et al.
2004ApJ...614..558N 1 30 75 Near-infrared spectroscopy of high-redshift active galactic nuclei. II. Disappearing narrow-line regions and the role of accretion. NETZER H., SHEMMER O., MAIOLINO R., et al.
2004MNRAS.347..355K 1 25 96 The power spectrum of the flux distribution in the Lyman α forest of a large sample of UVES QSO absorption spectra (LUQAS). KIM T.-S., VIEL M., HAEHNELT M.G., et al.
2004Msngr.118...40B 4 3 28 The large programme "cosmic evolution of the IGM". BERGERON J., PETITJEAN P., ARACIL B., et al.
2005A&A...430...47C 1 16 41 Probing the time-variation of the fine-structure constant: Results based on Si IV doublets from a UVES sample. CHAND H., PETITJEAN P., SRIANAND R., et al.
2005MNRAS.361.1015R 1 17 37 The density structure around quasars from optical depth statistics. ROLLINDE E., SRIANAND R., THEUNS T., et al.
2006A&A...455..773V viz 108222 545 A catalogue of quasars and active nuclei: 12th edition. VERON-CETTY M.-P. and VERON P.
2006ApJ...640...81L 19 15 A survey of weak Mg II absorbers at redshift <z> = 1.78. LYNCH R.S., CHARLTON J.C. and KIM T.-S.
2006ApJ...645..868G 13 23 High-resolution absorption spectroscopy of multiphase, high-metallicity gas associated with the luminous quasar HE 0226-4110. GANGULY R., SEMBACH K.R., TRIPP T.M., et al.
2006MNRAS.365..615S 1 18 71 The sources of intergalactic metals. SCANNAPIECO E., PICHON C., ARACIL B., et al.
2006MNRAS.369..734Z 31 20 The matter power spectrum from the Lyα forest: an optical depth estimate. ZAROUBI S., VIEL M., NUSSER A., et al.
2006MNRAS.372.1333D 12 20 Tomography of the intergalactic medium with Lyα forests in close QSO pairs. D'ODORICO V., VIEL M., SAITTA F., et al.
2007ApJ...660.1093N viz 57 28 A survey of weak Mg II absorbers at 0.4 < z < 2.4. NARAYANAN A., MISAWA T., CHARLTON J.C., et al.
2007A&A...468..979M 16       D   O           2 51 136 Dust covering factor, silicate emission, and star formation in luminous QSOs. MAIOLINO R., SHEMMER O., IMANISHI M., et al.
2007MNRAS.379.1169S 512       D     X C F     12 8 66 A large population of metal-rich, compact, intergalactic CIV absorbers - evidence for poor small-scale metal mixing. SCHAYE J., CARSWELL R.F. and KIM T.-S.
2007ApJ...669..135M 91       D S             5 24 13 The kinematic evolution of strong Mg II absorbers. MSHAR A.C., CHARLTON J.C., LYNCH R.S., et al.
2007MNRAS.382.1657K 169       D       C F     6 18 76 An improved measurement of the flux distribution of the Lyα forest in QSO absorption spectra: the effect of continuum fitting, metal contamination and noise properties. KIM T.-S., BOLTON J.S., VIEL M., et al.
2008MNRAS.385..519S 168       D       C F     2 22 11 Tracing the gas at redshift 1.7-3.5 with the Lyα forest: the FLO approach. SAITTA F., D'ODORICO V., BRUSCOLI M., et al.
2008A&A...483...19L 496       S O X C       11 8 3 EUV spectral energy distribution of quasars restored from associated absorbers. LEVSHAKOV S.A., AGAFONOVA I.I., REIMERS D., et al.
2008MNRAS.388.1557F 92       D         F     6 15 16 A study of quasar proximity in O VI absorbers at z = 2-3. FOX A.J., BERGERON J. and PETITJEAN P.
2008MNRAS.389.1727D 92       D         F     2 20 19 The quasar proximity effect at redshift <z> ≃ 2.6 with the From Lines to Overdensities approach. D'ODORICO V., BRUSCOLI M., SAITTA F., et al.
2008A&A...491..465D 130       D   O X         4 40 48 An unbiased measurement of the UV background and its evolution via the proximity effect in quasar spectra. DALL'AGLIO A., WISOTZKI L. and WORSECK G.
2008ApJ...689..851A 16       D               1 17 52 Metallicity of the intergalactic medium using pixel statistics. IV. Oxygen. AGUIRRE A., DOW-HYGELUND C., SCHAYE J., et al.
2009A&A...496...31F 630       D   O X C       16 19 14 The nature of NV absorbers at high redshift. FECHNER C. and RICHTER P.
2009A&A...507..209L 630       D   O X C       16 8 7 Metal-rich absorbers at high redshifts: abundance patterns. LEVSHAKOV S.A., AGAFONOVA I.I., MOLARO P., et al.
2009NewAR..53..128C 15       D               1 13 17 High velocity outflows in narrow absorption line quasars. CHARTAS G., CHARLTON J., ERACLEOUS M., et al.
2010MNRAS.401.2715D viz 15       D               1 33 46 The rise of the C IV mass density at z < 2.5. D'ODORICO V., CALURA F., CRISTIANI S., 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.
2011MNRAS.411..826T 16       D               1 33 38 Cosmic evolution of the C IV in high-resolution hydrodynamic simulations. TESCARI E., VIEL M., D'ODORICO V., et al.
2011A&A...528A..12R viz 16       D               1 297 31 The neutral gas extent of galaxies as derived from weak intervening Ca II absorbers. RICHTER P., KRAUSE F., FECHNER C., et al.
2012MNRAS.421..446M 16       D               10 19 23 A high-resolution study of intergalactic O VI absorbers at z ∼ 2.3. MUZAHID S., SRIANAND R., BERGERON J., et al.
2012MNRAS.422.3370K viz 16       D               3 127 155 Spatial variation in the fine-structure constant - new results from VLT/UVES. KING J.A., WEBB J.K., MURPHY M.T., et al.
2012ApJ...754...38C viz 16       D               1 118 9 Incidence of Mg II absorption systems toward flat-spectrum radio quasars. CHAND H. and GOPAL-KRISHNA
2012MNRAS.424.1723G 17       D               1 17 45 The intergalactic medium thermal history at redshift z = 1.7–3.2 from the Lyα forest: a comparison of measurements using wavelets and the flux distribution. GARZILLI A., BOLTON J.S., KIM T.-S., et al.
2012MNRAS.427.1801R 94       D         F     2 46 6 Evolution of the population of very strong MgII absorbers. RODRIGUEZ HIDALGO P., WESSELS K., CHARLTON J.C., et al.
2013A&A...552A..77K 16       D               2 18 31 The evolution of HI and CIV quasar absorption line systems at 1.9 < z < 3.2. KIM T.-S., PARTL A.M., CARSWELL R.F., et al.
2013A&A...556A.140Z 16       D               1 249 20 The ESO UVES advanced data products quasar sample. I. Dataset and new NHI measurements of damped absorbers. ZAFAR T., POPPING A. and PEROUX C.
2013A&A...556A.141Z viz 56       D     X         2 252 95 The ESO UVES advanced data products quasar sample. II. Cosmological evolution of the neutral gas mass density. ZAFAR T., PEROUX C., POPPING A., et al.
2014MNRAS.441.1916B 16       D               1 60 46 The thermal history of the intergalactic medium down to redshift z = 1.5: a new curvature measurement. BOERA E., MURPHY M.T., BECKER G.D., et al.
2015ApJ...805..124S 138       D     X C       3 74 22 Weak emission-line quasars in the context of a modified Baldwin effect. SHEMMER O. and LIEBER S.
2015A&A...580A.102C 23       D               1 9 69 Ionised outflows in z ∼ 2.4 quasar host galaxies. CARNIANI S., MARCONI A., MAIOLINO R., et al.
2016MNRAS.456L..79B 16       D               1 27 5 Constraining the temperature-density relation of the intergalactic medium with the Lyman α and β forests. BOERA E., MURPHY M.T., BECKER G.D., et al.
2016MNRAS.456.3509K viz 428       D     X         11 20 1 Evidence of bimodal physical properties of intervening, optically thin C III absorbers at z ∼ 2.5. KIM T.-S., CARSWELL R.F. and RANQUIST D.
2016MNRAS.457.2005K 16       D               1 22 5 Triple-ionized carbon associated with the low-density neutral hydrogen gas at 1.7 < z < 3.3: the integrated N H I-N C iv relation. KIM T.-S., CARSWELL R.F., MONGARDI C., et al.
2016A&A...591A..28C viz 1621           X C       38 3 48 Fast outflows and star formation quenching in quasar host galaxies. CARNIANI S., MARCONI A., MAIOLINO R., et al.
2017A&A...601A.143F 89 68 AGN wind scaling relations and the co-evolution of black holes and galaxies. FIORE F., FERUGLIO C., SHANKAR F., et al.
2017A&A...605A.105C 1530   K A S   X C       35 14 10 AGN feedback on molecular gas reservoirs in quasars at z ∼ 2.4. CARNIANI S., MARCONI A., MAIOLINO R., et al.
2018ApJ...852...22W viz 17       D               1 73 7 A new precision measurement of the small-scale line-of-sight power spectrum of the Lyα forest. WALTHER M., HENNAWI J.F., HISS H., et al.
2018ApJ...865...42H 17       D               1 73 11 A new measurement of the temperature-density relation of the IGM from Voigt profile fitting. HISS H., WALTHER M., HENNAWI J.F., et al.
2018ApJ...865...56L viz 17       D               3 27 1 Reverberation mapping of luminous quasars at high z. LIRA P., KASPI S., NETZER H., et al.
2019MNRAS.484.5028M 17       D               3 11 ~ Physical conditions in high-z optically thin C III absorbers: origin of cloud sizes and associated correlations. MOHAPATRA A., SRIANAND R., KHAIRE V., et al.
2019MNRAS.488.4690C 104       D       C       6 81 ~ Probing quasar winds using intrinsic narrow absorption lines. CULLITON C., CHARLTON J., ERACLEOUS M., et al.
2021MNRAS.501.5811K 19       D               1 84 ~ The evolution of the low-density H I intergalactic medium from z = 3.6 to 0: data, transmitted flux, and H I column density,+,++. KIM T.-S., WAKKER B.P., NASIR F., et al.

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