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The Physical Constraints on a New LoBAL QSO at z = 4.82Yi, Weimin, Green, Richard, Bai, Jin-Ming, Wang, Tinggui, Grier, Catherine J., Trump, Jonathan R., Brandt, William N., Zuo, Wenwen, Yang, Jinyi, Wang, Feige, Yang, Chenwei, Wu, Xue-Bing, Zhou, Hongyan, Fan, Xiaohui, Jiang, Linhua, Yang, Qian, Varricatt, Watson, Kerr, Tom, Milne, Peter, Benigni, Sam, Wang, Jian-Guo, Zhang, Jujia, Wang, Fang, Wang, Chuan-Jun, Xin, Yu-Xin, Fan, Yu-Feng, Chang, Liang, Zhang, Xiliang, Lun, Bao-Li 03 April 2017 (has links)
Very few low-ionization broad absorption line (LoBAL) QSOs have been found at high redshifts, to date. One high-redshift LoBAL QSO, J0122+1216, was recently discovered by the Lijiang 2.4 m Telescope, with an initial redshift determination of 4.76. Aiming to investigate its physical properties, we carried out follow-up observations in the optical and near-IR spectroscopy. Near-IR spectra from UKIRT and P200 confirm that it is a LoBAL, with a new redshift determination of 4.82 +/- 0.01 based on the Mg II emission-line. The new Mg II redshift determination reveals strong blueshifts and asymmetry of the high-ionization emission lines. We estimate a black hole mass of similar to 2.3 x 10(9) M-circle dot and Eddington ratio of similar to 1.0 according to the empirical Mg II-based single-epoch relation and bolometric correction factor. It is possible that strong outflows are the result of an extreme quasar environment driven by the high Eddington ratio. A lower limit on the outflowing kinetic power (>0.9% L-Edd) is derived from both emission and absorption lines, indicating that these outflows play a significant role in the feedback process that regulates the growth of its black hole, as well as host galaxy evolution.
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THE CIRCUMGALACTIC MEDIUM OF SUBMILLIMETER GALAXIES. I. FIRST RESULTS FROM A RADIO-IDENTIFIED SAMPLEFu, Hai, Hennawi, J. F., Prochaska, J. X., Mutel, R., Casey, C., Cooray, A., Kereš, D., Zhang, Z.-Y., Clements, D., Isbell, J., Lang, C., McGinnis, D., Michałowski, M. J., Mooley, K., Perley, D., Stockton, A., Thompson, D. 15 November 2016 (has links)
We present the first results from an ongoing survey to characterize the circumgalactic medium (CGM) of massive high-redshift galaxies detected as submillimeter galaxies (SMGs). We constructed a parent sample of 163 SMGQSO pairs with separations less than similar to 36" by cross-matching far-infrared-selected galaxies from Herschel with spectroscopically confirmed QSOs. The Herschel sources were selected to match the properties of the SMGs. We determined the sub-arcsecond positions of six Herschel sources with the Very Large Array and obtained secure redshift identification for three of those with near-infrared spectroscopy. The QSO sightlines probe transverse proper distances of 112, 157, and 198. kpc at foreground redshifts of 2.043, 2.515, and 2.184, respectively, which are comparable to the virial radius of the similar to 10(13) M circle dot halos expected to host SMGs. High-quality absorption-line spectroscopy of the QSOs reveals systematically strong H I Ly alpha absorption around all three SMGs, with rest-frame equivalent widths of similar to 2-3 A. However, none of the three absorbers exhibit compelling evidence for optically thick H I gas or metal absorption, in contrast to the dominance of strong neutral absorbers in the CGM of luminous z similar to 2 QSOs. The low covering factor of optically thick H I gas around SMGs tentatively indicates that SMGs may not have as prominent cool gas reservoirs in their halos as the coeval QSOs and that they may inhabit less massive halos than previously thought.
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Active Galactic Nuclei. III. Accretion Flow in an Externally Supplied Cluster of Black HolesPacholczyk, A. G., Stepinski, T. F., Stoeger, W. R. 10 1900 (has links)
This third paper in the series modeling QSOs and AGN as clusters of accreting black
holes studies the accretion flow within an externally supplied cluster. Significant radiation
will be emitted by the cluster core, but the black holes in the outer halo, where the flow is
considered spherically symmetric, will not contribute much to the overall luminosity of the
source because of their large velocities relative to the infalling gas, and therefore their small
accretion radii. As a result the scenario discussed in Paper I will refer to the cluster cores,
rather than to entire clusters. This will steepen the high frequency region of the spectrum
unless inverse Compton scattering is effective. In many cases accretion flow in the central
part of the cluster will be optically thick to electron scattering resulting in a spectrum
featuring optically thick radiative component in addition to power -law regimes. The fitting
of these spectra to QSO and AGN observations is discussed, and application to 3C 273 is
worked out as an example.
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Redshift Quantization in the Lyman-alpha Forest and the Measurement of qoCocke, W. J., Tifft, W. G. 12 1900 (has links)
We present evidence for redshift quantization in the Lyman -a forest of several QSOs.
The Ly -a data are at redshifts z from 1.89 to 3.74, and the theory of redshift quantization
proposed by Cocke (1983, 1085) is used to scale the quantization interval (24.15 km s -')
to these high redshift. The sealing depends on the deceleration parameter qo, and the
quantization is present at a statistical significance of greater than 99% for qo = 1/2. This
may be taken as confirming the inflationary model of the early history of the universe. The
significance of the quantization is highest at go rs 0.48, and the width of the peak is about
0.03 . The result can also be seen as providing confirmatory evidence for both the theory
of the redshift quantization and the above value of qo, but at a significance of only 03 %.
The scenario proposed for the relativistic generalization of the theory is that of fermion
wavefunctione and quantum operators in a background Riemannian spacetime satisfying
Einstein's field equations.
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SpIES: THE SPITZER IRAC EQUATORIAL SURVEYTimlin, John D., Ross, Nicholas P., Richards, Gordon T., Lacy, Mark, Ryan, Erin L., Stone, Robert B., Bauer, Franz E., Brandt, W. N., Fan, Xiaohui, Glikman, Eilat, Haggard, Daryl, Jiang, Linhua, LaMassa, Stephanie M., Lin, Yen-Ting, Makler, Martin, McGehee, Peregrine, Myers, Adam D., Schneider, Donald P., Urry, C. Megan, Wollack, Edward J., Zakamska, Nadia L. 29 June 2016 (has links)
We describe the first data release from the Spitzer-IRAC Equatorial Survey (SpIES); a large-area survey of similar to 115 deg(2) in the Equatorial SDSS Stripe 82 field using Spitzer during its "warm" mission phase. SpIES was designed to probe sufficient volume to perform measurements of quasar clustering and the luminosity function at z >= 3 to test various models for "feedback" from active galactic nuclei (AGNs). Additionally, the wide range of available multi-wavelength, multi-epoch ancillary data enables SpIES to identify both high-redshift (z >= 5) quasars as well as obscured quasars missed by optical surveys. SpIES achieves 5 sigma depths of 6.13 mu Jy (21.93 AB magnitude) and 5.75 mu Jy (22.0 AB magnitude) at 3.6 and 4.5 mu m, respectively-depths significantly fainter than the Wide-field Infrared Survey Explorer (WISE). We show that the SpIES survey recovers a much larger fraction of spectroscopically confirmed quasars (similar to 98%) in Stripe 82 than are recovered by WISE (similar to 55%). This depth is especially powerful at high-redshift (z >= 3.5), where SpIES recovers 94% of confirmed quasars, whereas WISE only recovers 25%. Here we define the SpIES survey parameters and describe the image processing, source extraction, and catalog production methods used to analyze the SpIES data. In addition to this survey paper, we release 234 images created by the SpIES team and three detection catalogs: a 3.6 mu m. only detection catalog containing similar to 6.1 million sources, a 4.5 mu m. only detection catalog containing similar to 6.5 million sources, and a dual-band detection catalog containing similar to 5.4 million sources.
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Dust-deficient Palomar-Green Quasars and the Diversity of AGN Intrinsic IR EmissionLyu, Jianwei, Rieke, G. H., Shi, Yong 01 February 2017 (has links)
To elucidate the intrinsic broadband infrared (IR) emission properties of active galactic nuclei (AGNs), we analyze the spectral energy distributions (SEDs) of 87 z less than or similar to 0.5 Palomar-Green (PG) quasars. While the Elvis AGN template with a moderate far-IR correction can reasonably match the SEDs of the AGN components in similar to 60% of the sample (and is superior to alternatives such as that by Assef), it fails on two quasar populations: (1) hot-dustdeficient (HDD) quasars that show very weak emission thoroughly from the near-IR to the far-IR, and (2) warm-dust- deficient (WDD) quasars that have similar hot dust emission as normal quasars but are relatively faint in the mid-and far-IR. After building composite AGN templates for these dust-deficient quasars, we successfully fit the 0.3-500 mu m SEDs of the PG sample with the appropriate AGN template, an infrared template of a star-forming galaxy, and a host galaxy stellar template. 20 HDD and 12 WDD quasars are identified from the SED decomposition, including seven ambiguous cases. Compared with normal quasars, the HDD quasars have AGNs with relatively low Eddington ratios and the fraction of WDD quasars increases with AGN luminosity. Moreover, both the HDD and WDD quasar populations show relatively stronger mid-IR silicate emission. Virtually identical SED properties are also found in some quasars from z = 0.5 to 6. We propose a conceptual model to demonstrate that the observed dust deficiency of quasars can result from a change of structures of the circumnuclear tori that can occur at any cosmic epoch.
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The Intrinsic Far-infrared Continua of Type-1 QuasarsLyu, Jianwei, Rieke, George H. 25 May 2017 (has links)
The range of currently proposed active galactic nucleus (AGN) far-infrared templates results in uncertainties in retrieving host galaxy information from infrared observations and also undermines constraints on the outer part of the AGN torus. We discuss how to test and reconcile these templates. Physically, the fraction of the intrinsic AGN IR-processed luminosity compared with that from the central engine should be consistent with the dust-covering factor. In addition, besides reproducing the composite spectral energy distributions (SEDs) of quasars, a correct AGN IR template combined with an accurate library of star-forming galaxy templates should be able to reproduce the IR properties of the host galaxies, such as the luminosity-dependent SED shapes and aromatic feature strengths. We develop tests based on these expected behaviors and find that the shape of the AGN intrinsic far-IR emission drops off rapidly starting at similar to 20 mu m and can be matched by an Elvis et al.-like template with a. minor modification. Despite the variations in the near- to mid-IR bands, AGNs in quasars and Seyfert galaxies have remarkably similar intrinsic far-IR SEDs at lambda similar to 20-100 mu m, suggesting a similar emission character of the outermost region of the circumnuclear torus. The variations of the intrinsic AGN IR SEDs among the type-1 quasar population can be explained by the changing relative strengths of four major dust components with similar characteristic temperatures, and there is evidence for compact AGN-heated dusty structures at sub-kiloparsec scales in the far-IR.
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The search for the highest redshift quasars using the Dark Energy SurveyReed, Sophie January 2017 (has links)
Quasars are amongst the most luminous objects known in the Universe and thus can be observed out to large distances and correspondingly early times in the history of the Universe. Luminous quasars are powered by accretion of matter onto supermassive black holes (10⁶ - 10¹⁰M⊙) and are situated in the centre of some of the most massive galaxies and are a crucial test of massive galaxy and supermassive black hole assembly and evolution models - proving hard to recreate using simulations. As well as being of intrinsic interest, the spectra of quasars contain information about the state of the intergalactic medium (IGM) in the vicinity of the quasar, and also cosmologically distributed material in the foreground, via absorption lines due to the intervening material. This allows studies of the IGM at high redshift along different sight lines, providing insight into the metallicity, temperature and homogeneity of the Universe. This thesis discusses a new method of finding high redshift quasars using new multi wavelength data from the Dark Energy Survey, the VISTA Hemisphere Survey and Wide-Field Infrared Survey Explorer. The beginning of the thesis focusses on developing an automated selection code for z > 6 quasars, including the automatic rejection of foreground contaminating sources such as instrumental artefacts, asteroids, galactic stars and lower redshift quasars and galaxies. Following on from my first discovery of a z = 6.1 quasar in the DES and VHS data, I have developed a robust selection method that allows me to go straight from candidates to spectroscopy without needing additional photometric follow up. The method uses a grid of quasar models with a range of reddening and a series of brown dwarf spectral energy distribution models to derive a X² statistical likelihood of an object being a quasar and an associated photometric redshift. This differs from previous methods in that it allows for automatic rejection of brown dwarf stars without requiring further data. My selection delivers a ranked candidate list which down weights astrophysical contaminants and imaging artefacts. The thesis then discusses extending this method to higher redshift and the discovery of two quasars at z = 6.75 and z = 6.9. Included with this is a discussion about spectroscopic reduction of near IR data and the properties which can be derived from it. The final part of the thesis uses the quasars I have found to study their environment such as the IGM which they are embedded in, I have been developing a robust method for measuring their hydrogen near zone sizes that can be compared to simulations.
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Caracterización de la variabilidad óptica de los agujeros negros supermasivosCartier Ugarte, Regis January 2014 (has links)
Doctor en Astronomía / La variabilidad de los núcleos activos de las galaxias (AGNs) es un fenómeno bien establecido,
el cual puede ser observado en un amplio rango del espectro electromagnético; desde
longitudes de onda en radio hasta los rayos-Gamma. La variabilidad de los AGNs ha sido utilizada
como una herramienta para estimar algunas propiedades de los agujeros negros, como
los tama nos de las regiones donde se origina la emisión y la masa de los agujeros negros. Sin
embargo, los mecanismos que originan la variabilidad, o su conección con parámetros que
gobiernan la física de los AGNs, son todavía áreas de investigación con preguntas abiertas.
La propiedad de los AGNs de variar su luminosidad en función del tiempo parece ser
una herramienta muy prometedora para seleccionarlos. Por ejemplo, Butler & Bloom (2011),
Palanque-Delabrouille et al. (2011), y m´as recientemente Graham et al. (2014) han demostrado
que utilizando la variabilidad de los QSOs como método de selección puede aumentar
hasta en un 90% el número de candidatos a QSOs que presentan colores ópticos
similares a los de las estrellas, y por lo tanto son QSOs muy difíciles de identificar utilizando
solo fotometría óptica y los métodos de selección tradicionales.
Con el objetivo de aportar al estudio de la variabilidad de los agujeros negros hemos
desarrollado una búsqueda de AGNs. Dicha búsqueda monitorea, noche tras noche, campos
extragalácticos que han sido observados y estudiados en prácticamente todo el espectro
electromegnético. Para realizar el monitoreo se utilizó la cámara QUEST instalada en el
telescopio ESO Schmidt en El Observatorio La-Silla. Este es uno de los telescopios Schmidt
más grandes en el hemisferio austral, y esta situado en un sitio excelente caracterizado por
buen seeing y cielos oscuros. Además, la cámara QUEST cubre una importante región del
cielo (3.6◦ × 4.6◦), conviertiéndola en un instrumento ideal para este tipo de estudios.
Como parte de esta tesis se caracterizo el instrumento. Lo que implica entender el sistema
fotométrico y evaluar la calidad de la astrométria. Además, utilizando observaciones
del campo COSMOS, obtenidas entre el 2010 y el 2012, se estudio la variabilidad óptica de
fuentes de rayos-X ya identificados como AGNs. Se encontró que el 80% ±5% de los QSOs
o AGNs de lineas anchas son variables, además de que un 21% ±8% de los AGNs de lineas
angostas también presentan variabilidad óptica. Por otro lado, un 22% ±9% de las galaxias,
detectadas en observaciones del satélite XMM-Newton en Rayos-X, muestran variabilidad.
Finalmente, haciendo uso de la variabilidad óptica de los QSOs y de fotometría obtenida
del Sloan Digital Sky Survey (SDSS) se desarrollo y entreno un algoritmo basado en redes
neuronales para seleccionar QSOs. De un total de 13, 740 objetos con fotometría del SDSS
en el campo COSMOS, y observados en mas de 30 épocas por un periodo de más de 600 días
con la cámara QUEST, se encontraron 341 candidatos a QSOs. De estos 106 ya han sido
identificados spectroscópicamente por otros investigadores. Notablemente, se encontraron 109
candidatos con colores u − g >0.7 los cuales difícimente podrían ser identificados utilizando
solo colores ópticos, debido a que sus colores ópticos son similares a los de las estrellas.
Además, estos últimos candidatos son probablemente QSOs a z >2.5, como resultado se
incremento significativamente el número de candidatos a alto redshift en esta región del
cielo.
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A Population of Short-Period Variable Quasars from PTF as Supermassive Black Hole Binary CandidatesCharisi, Maria January 2017 (has links)
Supermassive black hole binaries (SMBHBs) are the natural consequence of galaxy mergers and should form frequently in galactic nuclei. Especially at sub-parsec separations, where the binary evolution is slow, SMBHBs should be fairly abundant. However, the observational evidence remains elusive.
In this thesis, we focus on periodic variability of quasars as a potential signature of compact SMBHBs. First, we present a systematic search for periodic variability in the photometric database of the Palomar Transient Factory. Our search in a large sample of ~35,000 quasars returned 50 candidates, 33 of which remain significant after the reanalysis of extended light curves including data from the Catalina Real-Time Transient Survey and the intermediate PTF. Our candidates have periods of a few hundred days.
Next, we focus on independent signatures that could verify the binary nature of the candidates. We present a case study of quasar PKS 1302-102, the first candidate that emerged from the large time-domain surveys. We search for multiple periodic components in the variability with a characteristic frequency pattern predicted by hydrodynamical simulations of circumbinary disks. We do not find compelling evidence for a secondary period.
Additionally, in compact SMBHBs, relativistic Doppler boost should be significant and may dominate the variability. This model was suggested as a smoking-gun signature for quasar PKS 1302-102, since it is not expected in quasars with a single BH and it offers a robust prediction, which can be tested with multi-wavelength data. With a control sample of non-periodic quasars, we test whether this signature is distinct from the intrinsic multi-wavelength variability of quasars. We concluded that the Doppler boost does not provide a sharp test for SMBHBs.
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