SDSS J231038.88+185519.7 , the SIMBAD biblio

SDSS J231038.88+185519.7 , the SIMBAD biblio (63 results) C.D.S. - SIMBAD4 rel 1.8 - 2022.12.08CET16:45:46


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Title First 3 Authors
2012ApJ...761..112M viz 16       D               5 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               13 231 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.
2013ApJ...773...44W 952     A D S   X C       23 11 178 Star formation and gas kinematics of quasar host galaxies at z ∼ 6: new insights from ALMA. WANG R., WAGG J., CARILLI C.L., et al.
2014MNRAS.438.2483M 95       D     X         3 13 14 Extreme galaxies during reionization: testing ISM and disc models. MUNOZ J.A. and FURLANETTO S.R.
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.
2014A&A...562A..35N viz 16       D               1 29 25 High-resolution C+ imaging of HDF 850.1 reveals a merging galaxy at z = 5.185. NERI R., DOWNES D., COX P., et al.
2014AJ....148...14B 95       D     X         3 44 80 Discovery of eight z ∼ 6 quasars from Pan-STARRS1. BANADOS E., VENEMANS B.P., MORGANSON E., et al.
2013ARA&A..51..105C 49           X         1 25 546 Cool gas in high-redshift galaxies. CARILLI C.L. and WALTER F.
2014ApJ...795....5O 16       D               1 36 47 Faint submillimeter galaxies revealed by multifield deep ALMA observations: number counts, spatial clustering, and a dark submillimeter line emitter. ONO Y., OUCHI M., KURONO Y., et al.
2014MNRAS.444.2442V 454       D     X C       11 17 38 High-redshift quasars host galaxies: is there a stellar mass crisis ? VALIANTE R., SCHNEIDER R., SALVADORI S., et al.
2015ApJ...801..123W 18       D               1 16 47 Star formation rate and dynamical mass of 108 solar mass black hole host galaxies at redshift 6. WILLOTT C.J., BERGERON J. and OMONT A.
2015A&A...575A..31B viz 42           X         1 8 18 The spectral energy distribution of the redshift 7.1 quasar ULAS J1120+0641. BARNETT R., WARREN S.J., BANERJI M., et al.
2015MNRAS.449.2883G 16       D               1 58 54 The nature of the [CII] emission in dusty star-forming galaxies from the SPT survey. GULLBERG B., DE BREUCK C., VIEIRA J.D., et al.
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.
2016ApJ...833..222J 586       D     X C       14 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.
2016MNRAS.463.2085M 43           X         1 4 8 High-temperature saturation can produce the [C II] deficit in LIRGs and ULIRGs. MUNOZ J.A. and OH S.P.
2017MNRAS.471.2143L 58       D     X         2 21 ~ [C I], [C II] and CO emission lines as a probe for α variations at low and high redshifts. LEVSHAKOV S.A., NG K.-W., HENKEL C., et al.
2018ApJ...854...97D 17       D               1 50 18 An ALMA [C II] survey of 27 quasars at z > 5.94. DECARLI R., WALTER F., VENEMANS B.P., et al.
2018ApJ...863L..29D 485     A     X C       11 3 ~ Witnessing galaxy assembly at the edge of the reionization epoch. D'ODORICO V., FERUGLIO C., FERRARA A., et al.
2018ApJ...864...53E 42           X         1 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 59       D     X         2 98 1 Dust emission in an accretion-rate-limited sample of z >= 6 quasars. VENEMANS B.P., DECARLI R., WALTER F., et al.
2018ApJ...867..153C 17       D               2 54 ~ No evidence for millimeter continuum source overdensities in the environments of z >= 6 quasars. CHAMPAGNE J.B., DECARLI R., CASEY C.M., et al.
2018A&A...619A..39F 861 T K A     X C       19 4 ~ The dense molecular gas in the z ∼ 6 QSO
SDSS
J231038.88+185519.7
resolved by ALMA.
FERUGLIO C., FIORE F., CARNIANI S., 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 43           X         1 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...872L..29S 85             C       1 26 ~ Black versus dark: rapid growth of supermassive black holes in dark matter halos at z ∼ 6. SHIMASAKU K. and IZUMI T.
2019ApJ...873...35S viz 17       D               2 50 ~ Gemini GNIRS near-infrared spectroscopy of 50 quasars at z >= 5.7. SHEN Y., WU J., JIANG L., et al.
2019ApJ...876...99S 1916     A D S   X C       44 11 ~ Star formation and ISM properties in the host galaxies of three far-infrared luminous quasars at z ∼ 6. SHAO Y., WANG R., CARILLI C.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...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...630A..59B viz 17       D               1 51 ~ Widespread QSO-driven outflows in the early Universe. BISCHETTI M., MAIOLINO R., CARNIANI S., et al.
2019A&A...630A.118V 145       D     X C       3 28 ~ 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...885...59B 43           X         1 2 ~ A metal-poor damped Lyα system at redshift 6.4. BANADOS E., RAUCH M., DECARLI R., et al.
2019A&A...631A..78S viz 17       D   O           2 27 ~ A spectral stacking analysis to search for faint outflow signatures in z ∼ 6 quasars. STANLEY F., JOLLY J.B., KONIG S., et al.
2019ApJ...887...40W 85           X         2 9 ~ Resolving the interstellar medium in the nuclear region of two z = 5.78 quasar host galaxies with ALMA. WANG R., SHAO Y., CARILLI C.L., et al.
2019MNRAS.489.3939C 2809   K A D S   X C       65 35 ~ Constraints on high-J CO emission lines in z ∼ 6 quasars. CARNIANI S., GALLERANI S., VALLINI L., et al.
2019MNRAS.490.4502V 128           X C       2 11 ~ Impact of X-rays on CO emission from high-z galaxies. VALLINI L., TIELENS A.G.G.M., PALLOTTINI A., et al.
2019PASJ...71..109H 1873     A D     X C       44 25 ~ Detections of [O III] 88 μm in two quasars in the reionization epoch. HASHIMOTO T., INOUE A.K., TAMURA Y., et al.
2019PASJ...71..111I 43           X         1 16 ~ Subaru High-z Exploration of Low-Luminosity Quasars (SHELLQs). VIII. A less biased view of the early co-evolution of black holes and host galaxies. IZUMI T., ONOUE M., MATSUOKA Y., et al.
2020ApJ...889..162L 2899     A S   X C       65 15 ~ Probing the full CO spectral line energy distribution (SLED) in the nuclear region of a quasar-starburst system at z = 6.003. LI J., WANG R., RIECHERS D., et al.
2020A&A...637A..84P 670       D     X C       15 32 ~ The ALMA view of the high-redshift relation between supermassive black holes and their host galaxies. PENSABENE A., CARNIANI S., PERNA M., et al.
2020ApJ...900..131L 2594 T   A S   X C       57 10 ~ Ionized and atomic interstellar medium in the z = 6.003 quasar
SDSS
J2310+1855
.
LI J., WANG R., COX P., et al.
2020MNRAS.498.3624L 435   K       X C       9 27 ~ Constraints on the electron-to-proton mass ratio variation at the epoch of reionization. LEVSHAKOV S.A., KOZLOV M.G. and AGAFONOVA I.I.
2020ApJ...905...51S viz 366       D S   X         8 42 ~ 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...906...32Z 466       D     X C       10 31 ~ Strong Mg II and Fe II absorbers at 2.2 < z < 6.0. ZOU S., JIANG L., SHEN Y., et al.
2021MNRAS.501.4289Z 108       D         F     2 12 ~ High-redshift SMBHs can grow from stellar-mass seeds via chaotic accretion. ZUBOVAS K. and KING A.
2021A&A...646A.122B viz 45           X         1 26 ~ Close-up view of a luminous star-forming galaxy at z = 2.95. BERTA S., YOUNG A.J., COX P., et al.
2021MNRAS.502..888S 45           X         1 10 ~ Modelling intergalactic low ionization metal absorption line systems near the epoch of reionization. SUAREZ T. and MEIKSIN A.
2021A&A...652A..66P 224         O X C       4 21 ~ ALMA multiline survey of the ISM in two quasar host-companion galaxy pairs at z > 6. PENSABENE A., DECARLI R., BANADOS E., et al.
2021ApJ...921...97J 134           X C       2 7 ~ Molecular line observations in two dusty star-forming galaxies at z = 6.9. JARUGULA S., VIEIRA J.D., WEISS A., 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.
2022ApJ...927...64N 19       D               1 78 ~ Empirical Constraints on Core-collapse Supernova Yields Using Very Metal-poor Damped Lyα Absorbers. NUNEZ E.H., KIRBY E.N. and STEIDEL C.C.
2022ApJ...927..152M 47           X         1 8 ~ Physical Constraints on the Extended Interstellar Medium of the z = 6.42 Quasar J1148+5251: [C II]158µm, [N II]205µm, and [O I]146µm Observations. MEYER R.A., WALTER F., CICONE C., et al.
2022ApJ...928..179L 187           X C       3 25 ~ Multiphase ISM in the z = 5.7 Hyperluminous Starburst SPT 0346-52. LITKE K.C., MARRONE D.P., ARAVENA M., et al.
2022ApJ...925..121W 112       D     X         3 34 ~ Metallicity in Quasar Broad-line Regions at Redshift ∼ 6. WANG S., JIANG L., SHEN Y., et al.
2022Natur.605..244B 47           X         1 9 ~ Suppression of black-hole growth by strong outflows at redshifts 5.8-6.6. BISCHETTI M., FERUGLIO C., D’ODORICO V., et al.
2022AJ....163..251A 47           X         1 9 ~ Staring at the Shadows of Archaic Galaxies: Damped Lyα and Metal Absorbers Toward a Young z ∼ 6 Weak-line Quasar. ANDIKA I.T., JAHNKE K., BANADOS E., et al.
2022ApJ...930...27L 47           X         1 9 ~ Spatially Resolved Molecular Interstellar Medium in a z = 6.6 Quasar Host Galaxy. LI J., VENEMANS B.P., WALTER F., et al.
2022MNRAS.514...55B 19       D               1 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.
2022A&A...665A.107T 1847   K A     X C       39 13 ~ Black hole and host galaxy growth in an isolated z ∼ 6 QSO observed with ALMA. TRIPODI R., FERUGLIO C., FIORE F., et al.

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2022.12.08-16:45:47

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