33 results on '"Wilman, R J"'
Search Results
2. The discovery of a galaxy-wide superwind from a young massive galaxy at redshift z [approx equal] 3
- Author
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Wilman, R. J., Gerssen, J., Bower, R. G., Morris, S. L., Bacon, R., de Zeeuw, P. T., and Davies, R. L.
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Environmental issues ,Science and technology ,Zoology and wildlife conservation - Abstract
Author(s): R. J. Wilman (corresponding author) [1]; J. Gerssen [1]; R. G. Bower [1]; S. L. Morris [1]; R. Bacon [2]; P. T. de Zeeuw [3]; R. L. Davies [4] [...]
- Published
- 2005
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3. The first spectroscopic dust reverberation programme on active galactic nuclei: the torus in NGC 5548.
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Landt, H, Ward, M J, Kynoch, D, Packham, C, Ferland, G J, Lawrence, A, Pott, J-U, Esser, J, Horne, K, Starkey, D A, Malhotra, D, Fausnaugh, M M, Peterson, B M, Wilman, R J, Riffel, R A, Storchi-Bergmann, T, Barth, A J, Villforth, C, and Winkler, H
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ACTIVE galactic nuclei ,DUST ,MINERAL dusts ,TORUS ,DUST measurement - Abstract
We have recently initiated the first spectroscopic dust reverberation programme on active galactic nuclei in the near-infrared. Spectroscopy enables measurement of dust properties, such as flux, temperature, and covering factor, with higher precision than photometry. In particular, it enables measurement of both luminosity-based dust radii and dust response times. Here we report results from a 1 yr campaign on NGC 5548. The hot dust responds to changes in the irradiating flux with a lag time of ∼70 light-days, similar to what was previously found in photometric reverberation campaigns. The mean and rms spectra are similar, implying that the same dust component dominates both the emission and the variations. The dust lag time is consistent with the luminosity-based dust radius only if we assume a wavelength-independent dust emissivity law, i.e. a blackbody, which is appropriate for grains of large sizes (of a few μ m). For such grains the dust temperature is ∼1450 K. Therefore, silicate grains have most likely evaporated and carbon is the main chemical component. But the hot dust is not close to its sublimation temperature, contrary to popular belief. This is further supported by our observation of temperature variations largely consistent with a heating/cooling process. Therefore, the inner dust-free region is enlarged and the dusty torus rather a 'dusty wall', whose inner radius is expected to be luminosity-invariant. The dust-destruction mechanism that enlarges the dust-free region seems to also partly affect the dusty region. We observe a cyclical decrease in dust mass with implied dust reformation times of ∼5–6 months. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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4. Optical emission line nebulae in galaxy cluster cores 1: the morphological, kinematic and spectral properties of the sample.
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Hamer, S. L., Edge, A. C., Swinbank, A. M., Wilman, R. J., Combes, F., Salomé, P., Fabian, A. C., Crawford, C. S., Russell, H. R., Hlavacek-Larrondo, J., McNamara, B. R., and Bremer, M. N.
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GALAXY clusters ,KINEMATICS ,INTEGRAL field spectroscopy ,VERY large telescopes ,SPECTRAL analysis (Phonetics) - Abstract
We present an Integral Field Unit survey of 73 galaxy clusters and groups with the VIsible Multi Object Spectrograph on the Very Large Telescope. We exploit the data to determine the H α gas dynamics on kpc scales to study the feedback processes occurring within the dense cluster cores. We determine the kinematic state of the ionized gas and show that the majority of systems (~2/3) have relatively ordered velocity fields on kpc scales that are similar to the kinematics of rotating discs and are decoupled from the stellar kinematics of the brightest cluster galaxy. The majority of the H α flux (>50 per cent) is typically associated with these ordered kinematics and most systems show relatively simple morphologies suggesting they have not been disturbed by a recent merger or interaction. Approximately 20 per cent of the sample (13/73) have disturbed morphologies which can typically be attributed to active galactic nuclei activity disrupting the gas. Only one system shows any evidence of an interaction with another cluster member. A spectral analysis of the gas suggests that the ionization of the gas within cluster cores is dominated by non-stellar processes, possibly originating from the intracluster medium itself. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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5. A comprehensive study of the radio properties of brightest cluster galaxies.
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Hogan, M. T., Edge, A. C., Hlavacek-Larrondo, J., Grainge, K. J. B., Hamer, S. L., Mahony, E. K., Russell, H. R., Fabian, A. C., McNamara, B. R., and Wilman, R. J.
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GALAXIES ,X-rays ,SOLAR radio emission ,GALACTIC nuclei ,HELIOSPHERE - Abstract
We examine the radio properties of the brightest cluster galaxies (BCGs) in a large sample of X-ray selected galaxy clusters comprising the Brightest Cluster Sample (BCS), the extended BCS and ROSAT-ESO Flux Limited X-ray cluster catalogues. We have multifrequency radio observations of the BCG using a variety of data from the Australia Telescope Compact Array, Jansky Very Large Array and Very Long Baseline Array telescopes. The radio spectral energy distributions of these objects are decomposed into a component attributed to on-going accretion by the active galactic nuclei (AGN) that we refer to as 'the core', and a more diffuse, ageing component we refer to as the 'non-core'. These BCGs are matched to previous studies to determine whether they exhibit emission lines (principally Hα), indicative of the presence of a strong cooling cluster core. We consider how the radio properties of the BCGs vary with cluster environmental factors. Line emitting BCGs are shown to generally host more powerful radio sources, exhibiting the presence of a strong, distinguishable core component in about 60 per cent of cases. This core component more strongly correlates with the BCG's [O III] 5007 Å line emission. For BCGs in line emitting clusters, the X-ray cavity power correlates with both the extended and core radio emission, suggestive of steady fuelling of the AGN over bubble-rise time-scales in these clusters. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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6. Multiphase signatures of active galactic nucleus feedback in Abell 2597.
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Tremblay, G. R., O'Dea, C. P., Baum, S. A., Clarke, T. E., Sarazin, C. L., Bregman, J. N., Combes, F., Donahue, M., Edge, A. C., Fabian, A. C., Ferland, G. J., McNamara, B. R., Mittal, R., Oonk, J. B. R., Quillen, A. C., Russell, H. R., Sanders, J. S., Salomé, P., Voit, G. M., and Wilman, R. J.
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ACTIVE galactic nuclei ,FEEDBACK control systems ,X-rays ,GALAXY clusters ,BRIGHTEST stars ,STAR colors ,STAR formation - Abstract
ABSTRACT We present new Chandra X-ray observations of the brightest cluster galaxy (BCG) in the cool-core cluster Abell 2597 ( z= 0.0821). The data reveal an extensive kpc-scale X-ray cavity network as well as a 15-kpc filament of soft-excess gas exhibiting strong spatial correlation with archival Very Large Array radio data. In addition to several possible scenarios, multiwavelength evidence may suggest that the filament is associated with multiphase (10
3 -107 K) gas that has been entrained and dredged-up by the propagating radio source. Stemming from a full spectral analysis, we also present profiles and 2D spectral maps of modelled X-ray temperature, entropy, pressure and metal abundance. The maps reveal an arc of hot gas which in projection borders the inner edge of a large X-ray cavity. Although limited by strong caveats, we suggest that the hot arc may be (a) due to a compressed rim of cold gas pushed outwards by the radio bubble or (b) morphologically and energetically consistent with cavity-driven active galactic nucleus heating models invoked to quench cooling flows, in which the enthalpy of a buoyant X-ray cavity is locally thermalized as ambient gas rushes to refill its wake. If confirmed, this would be the first observational evidence for this model. [ABSTRACT FROM AUTHOR]- Published
- 2012
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7. Residual cooling and persistent star formation amid active galactic nucleus feedback in Abell 2597.
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Tremblay, G. R., O'Dea, C. P., Baum, S. A., Clarke, T. E., Sarazin, C. L., Bregman, J. N., Combes, F., Donahue, M., Edge, A. C., Fabian, A. C., Ferland, G. J., McNamara, B. R., Mittal, R., Oonk, J. B. R., Quillen, A. C., Russell, H. R., Sanders, J. S., Salomé, P., Voit, G. M., and Wilman, R. J.
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STAR formation ,ACTIVE galactic nuclei ,FEEDBACK control systems ,FAR infrared lasers ,BRIGHTEST stars ,KINEMATICS ,MOLECULAR gas lasers ,GALAXY clusters - Abstract
ABSTRACT New Chandra X-ray and Herschel Far-Infrared (FIR) observations enable a multiwavelength study of active galactic nucleus (AGN) heating and intracluster medium (ICM) cooling in the brightest cluster galaxy (BCG) of Abell 2597 ( z= 0.0821). The new Chandra observations reveal the central ≲30 kpc X-ray cavity network to be more extensive than previously thought, and associated with enough enthalpy to theoretically inhibit the inferred classical cooling flow. Nevertheless, we present new evidence, consistent with previous results, that a moderately strong residual cooling flow is persisting at 4-8 per cent of the classically predicted rates in a spatially structured manner amid the feedback-driven excavation of the X-ray cavity network. New Herschel observations are used to estimate warm and cold dust masses, a lower limit gas-to-dust ratio and a star formation rate consistent with previous measurements. [O i] and CO(2−1) line profiles are used to constrain the kinematics of the ∼10
9 M⊙ reservoir of cold molecular gas. The cooling time profile of the ambient X-ray atmosphere is used to map the locations of the observational star formation entropy threshold as well as the theoretical thermal instability threshold. Both lie just outside the ≲30-kpc central region permeated by X-ray cavities, and star formation as well as ionized and molecular gas lie interior to both. The young stars are distributed in an elongated region that is aligned with the radio lobes, and their estimated ages are both younger and older than the X-ray cavity network, suggesting both jet-triggered as well as persistent star formation over the current AGN feedback episode. Bright X-ray knots that are coincident with extended Lyα and far-ultraviolet continuum filaments motivate a discussion of structured cooling from the ambient hot atmosphere along a projected axis that is perpendicular to X-ray cavity and radio axis. We conclude that the cooling ICM is the dominant contributor of the cold gas reservoir fuelling star formation and AGN activity in the Abell 2597 BCG. [ABSTRACT FROM AUTHOR]- Published
- 2012
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8. The relation between line emission and brightest cluster galaxies in three exceptional clusters: evidence for gas cooling from the intracluster medium.
- Author
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Hamer, S. L., Edge, A. C., Swinbank, A. M., Wilman, R. J., Russell, H. R., Fabian, A. C., Sanders, J. S., and Salomé, P.
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FIELD emission ,GALAXY clusters ,GAS air conditioning ,STATISTICAL correlation ,CARBON dioxide ,X-ray astronomy ,TEMPERATURE effect - Abstract
ABSTRACT There is a strong spatial correlation between brightest clusters galaxies (BCGs) and the peak density and cooling rate of the intracluster medium (ICM). In this paper we combine integral field spectroscopy, CO observations and X-ray data to study three exceptional clusters (Abell 1991, Abell 3444 and Ophiuchus) where there is a physical and dynamical offset between the BCG and the cooling peak to investigate the connection between the cooling of the ICM, the cold gas being deposited and the central galaxy. We find the majority of the optical line emission is spatially coincident with the peak in the soft X-rays. In the case of A1991 we make separate detections of CO(2-1) emission on the BCG and on the peak of the soft X-ray emission suggesting that cooling continues to occur in the core despite being offset from the BCG. We conclude that there is a causal link between the lowest temperature (<2 keV) ICM gas and the molecular gas (∼30 K). This link is only apparent in systems where a transitory event has decoupled the BCG from the soft X-ray peak. We discuss the prospects for identifying more examples of this rare configuration. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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9. Molecular accretion in the core of the galaxy cluster 2A 0335+096.
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Wilman, R. J., Edge, A. C., McGregor, P. J., and McNamara, B. R.
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ACCRETION (Astrophysics) , *GALAXY clusters , *ADAPTIVE optics , *INTEGRAL field spectroscopy , *STAR formation , *ASTRONOMICAL observations , *BLACK holes - Abstract
ABSTRACT We present adaptive optics-assisted K-band integral field spectroscopy of the central cluster galaxy in 2A 0335+096 ( z= 0.0349). The H2 v=1-0 S(1) emission is concentrated in two peaks within 600 pc of the nucleus and fainter but kinematically active emission extends towards the nucleus. The H2 is in a rotating structure which aligns with, and appears to have been accreted from, a stream of Hα emission extending over 14 kpc towards a companion galaxy. The projected rotation axis aligns with the 5 GHz radio lobes. This H2 traces the known 1.2 × 109 M⊙ CO-emitting reservoir; limits on the Brγ emission confirm that the H2 emission is not excited by star formation, which occurs at a rate of less than 1 M⊙ yr−1 in this gas. If its accretion on to the black hole can be regulated whilst star formation remains suppressed, the reservoir could last for at least 1 Gyr; the simultaneous accretion of just ∼5 per cent of the gas could drive a series of active galactic nucleus (AGN) outbursts which offset X-ray cooling in the cluster core for the full ∼1 Gyr. Alternatively, if the regulation is ineffective and the bulk of the H2 accretes within a few orbital periods (25-100 Myr), the resulting 1062 erg outburst would be among the most powerful cluster AGN outbursts known. In either case, these observations further support cold feedback scenarios for AGN heating. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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10. An infrared–radio simulation of the extragalactic sky: from the Square Kilometre Array to Herschel.
- Author
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Wilman, R. J., Jarvis, M. J., Mauch, T., Rawlings, S., and Hickey, S.
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ASTRONOMY , *REDSHIFT , *SPECTRAL energy distribution , *SPECTRUM analysis , *POLYCYCLIC aromatic hydrocarbons , *SURVEYS - Abstract
To exploit synergies between the Herschel Space Observatory and next generation radio facilities, we have extended the semi-empirical extragalactic radio continuum simulation of Wilman et al. to the mid- and far-infrared. Here, we describe the assignment of infrared spectral energy distributions (SEDs) to the star-forming galaxies and active galactic nuclei, using Spitzer 24, 70 and 160 μm and SCUBA 850 μm survey results as the main constraints. Star-forming galaxies dominate the source counts, and a model in which their far-infrared–radio correlation and infrared SED assignment procedure are invariant with redshift underpredicts the observed 24 and 70 μm source counts. The 70 μm deficit can be eliminated if the star-forming galaxies undergo stronger luminosity evolution than originally assumed for the radio simulation, a requirement which may be partially ascribed to known non-linearity in the far-infrared–radio correlation at low luminosity if it evolves with redshift. At 24 μm, the shortfall is reduced if the star-forming galaxies develop SEDs with cooler dust and correspondingly stronger polycyclic aromatic hydrocarbon emission features with increasing redshift at a given far-infrared luminosity, but this trend may reverse at in order not to overproduce the submillimetre source counts. The resulting model compares favourably with recent Balloon-borne Large Aperture Submillimetre Telescope ( BLAST) results, and we have extended the simulation data base to aid the interpretation of Herschel surveys. Such comparisons may also facilitate further model refinement and revised predictions for the Square Kilometre Array and its precursors. [ABSTRACT FROM AUTHOR]
- Published
- 2010
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11. Dissecting the Lyman α emission halo of LAB1.
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Weijmans, Anne-Marie, Bower, Richard G., Geach, James E., Swinbank, A. Mark, Wilman, R. J., de Zeeuw, P. T., and Morris, Simon L.
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GALAXIES ,ASTRONOMY ,ASTRONOMICAL photography ,SPECTROGRAPHS ,SPECTROSCOPE - Abstract
We report observations of Lyman alpha blob 1 (LAB1) in the SSA 22 protocluster region with the integral-field spectrograph SAURON. We increased the signal-to-noise ratio in the spectra by more than a factor of 3 compared to our previous observations. This allows us to probe the structure of the LAB system in detail, examining its structure in the spatial and wavelength dimensions. We find that the emission from the system comes largely from five distinct blobs. Two of the emission regions are associated with Lyman break galaxies, while a third appears to be associated with a heavily obscured submillimeter galaxy. The fourth and fifth components do not appear to be associated with any galaxy despite the deep imaging that is available in this field. If we interpret wavelength shifts in the line centroid as velocity structure in the underlying gas, many of these emission systems show evidence of velocity shear. It remains difficult to distinguish between an underlying rotation of the gas and an outflow driven by the central object. We have examined all of the line profiles for evidence of strong absorption features. While several systems are better fitted by the inclusion of a weak absorption component, we do not see evidence for a large-scale coherent absorption feature such as that seen in LAB2. [ABSTRACT FROM AUTHOR]
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- 2010
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12. Integral field spectroscopy of ionized and molecular gas in cool cluster cores: evidence for cold feedback?
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Wilman, R. J., Edge, A. C., and Swinbank, A. M.
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GALAXY clusters , *EMISSION-line galaxies , *INTEGRAL field spectroscopy , *KINEMATICS , *IONIZED gases , *ROTATIONAL motion - Abstract
We present VLT-SINFONI K-band integral field spectroscopy of the central galaxies in the cool core clusters A1664, A2204 and PKS 0745−191, to probe the spatio-kinematic properties of the Paα and ro-vibrational H2 line emission. In A1664, the two emission-line velocity systems seen in our previous Hα spectroscopy appear in both Paα and H2 emission, with notable morphological differences. The recession velocity of the red component of Paα increases linearly with decreasing radius, particularly along an 8 kpc filament aligned with the major axis of the underlying galaxy and the cluster X-ray emission. These kinematics are modelled as gravitational free-fall as gas cools rapidly out of the hot phase. In A2204, the gas shows three or four filaments reaching radii of 10 kpc, three of which lie towards ‘ghost bubbles’ seen in X-ray imaging by Sanders et al. For PKS 0745−191, we confirm the twin-arm morphology in the narrow-band images of Donahue et al.; the Paα kinematics suggest rotational motion about an axis aligned with the kiloparsec-scale radio jet; on nucleus, we find an underlying broad Paα component [full width at half-maximum (FWHM) ] and a secondary H2 velocity system redshifted by . The S(3)/Paα ratio is the highest in the most isolated and extended regions where it matches the levels in the NGC 1275 filaments as modelled by Ferland et al. Regions with much lower ratios highlight active star formation and are often kinematically quiescent (FWHM ). Our findings suggest that the three clusters may be captured in different stages of the ‘cold feedback’ cycle of Pizzolato & Soker, with A1664 in a short-lived phase of extreme cooling and star formation prior to an active galactic nucleus (AGN) heating event; PKS 0745−191 in an outburst state with the AGN accreting from a cool gas disc, and A2204 in a later phase in which cool gas is dragged out of the galaxy by the buoyant rise of old radio bubbles. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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13. A semi-empirical simulation of the extragalactic radio continuum sky for next generation radio telescopes.
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Wilman, R. J., Miller, L., Jarvis, M. J., Mauch, T., Levrier, F., Abdalla, F. B., Rawlings, S., Klöckner, H.-R., Obreschkow, D., Olteanu, D., and Young, S.
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RADIO telescopes , *RADIO interferometers , *GALAXIES , *STELLAR luminosity function , *STARBURSTS - Abstract
We have developed a semi-empirical simulation of the extragalactic radio continuum sky suitable for aiding the design of next generation radio interferometers such as the Square Kilometre Array (SKA). The emphasis is on modelling the large-scale cosmological distribution of radio sources rather than the internal structure of individual galaxies. Here we provide a description of the simulation to accompany the online release of a catalogue of ≃320 million simulated radio sources. The simulation covers a sky area of 20 × 20 deg2– a plausible upper limit to the instantaneous field of view attainable with future (e.g. SKA) aperture array technologies – out to a cosmological redshift of z= 20, and down to flux density limits of 10 nJy at 151, 610 MHz, 1.4, 4.86 and 18 GHz. Five distinct source types are included: radio-quiet active galactic nuclei (AGN), radio-loud AGN of the Fanaroff–Riley type I (FR I) and FR II structural classes, and star-forming galaxies, the latter split into populations of quiescent and starbursting galaxies. In our semi-empirical approach, the simulated sources are drawn from observed (or extrapolated) luminosity functions and grafted on to an underlying dark matter density field with biases which reflect their measured large-scale clustering. A numerical Press–Schechter style filtering of the density field is used to identify and populate clusters of galaxies. For economy of output, radio source structures are constructed from point source and elliptical subcomponents, and for FR I and FR II sources an orientation-based unification and beaming model is used to partition flux between the core and extended lobes and hotspots. The extensive simulation output gives users the flexibility to post-process the catalogues to achieve more complete agreement with observational data in the years ahead. The ultimate aim is for the ‘idealized skies’ generated by this simulation and associated post-processing to be fed to telescope simulators to optimize the design of the SKA itself. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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14. Constraints on light bending and reflection from the hard X-ray background.
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Gandhi, P., Fabian, A. C., Suebsuwong, T., Malzac, J., Miniutti, G., and Wilman, R. J.
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TELESCOPES ,ASTRONOMICAL instruments ,OPTICAL instruments ,X-rays ,X-ray astronomy ,X-ray optics ,SUPERMASSIVE black holes ,GRAVITATIONAL collapse - Abstract
Light bending due to strong gravity has recently been invoked to explain variability and flux correlations between different bands in some accreting black holes. A characteristic feature of light bending is reflection-dominated spectra, especially if photon sources lie in the deepest parts of the gravitational potential within a few gravitational radii of the event horizon. We use the spectrum of the hard X-ray background in order to constrain the prevalence of such reflection-dominated sources. We first emphasize the need for reflection and explore the broad-band properties of realistic spectra that incorporate light bending. We then use these spectra, in conjunction with the observed 2–10 keV active galactic nucleus distribution, evolutionary and obscuration functions in order to predict the hard X-ray background spectrum over 3–100 keV, and provide limits on the fraction of reflection-dominated objects, dependent on the height of the photon sources. Our results allow for a cosmologically-significant fraction of sources that incorporate strong light bending. The luminosity function based on intrinsic flare luminosities is derived and implications discussed. We discuss prospects for future hard X-ray missions such as New X-ray Telescope/Non-thermal Energy eXploration Telescope and Simbol-X that can image such sources as well as confirm the precise spectral shape of the X-ray background near its peak, important for constraining the universal relevance of light bending. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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15. Discovery of atomic and molecular mid-infrared emission lines in off-nuclear regions of NGC 1275 and NGC 4696 with the Spitzer Space Telescope.
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Johnstone, R. M., Hatch, N. A., Ferland, G. J., Fabian, A. C., Crawford, C. S., and Wilman, R. J.
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GALAXY clusters ,NEBULAE ,ASTRONOMICAL observations ,EMISSION-line galaxies ,SPACE telescopes ,SPACE vehicles ,SPECTRUM analysis - Abstract
We present Spitzer high-resolution spectra of off-nuclear regions in the central cluster galaxies NGC 1275 and NGC 4696 in the Perseus and Centaurus clusters, respectively. Both objects are surrounded by extensive optical emission-line filamentary nebulae, bright outer parts of which are the targets of our observations. The 10–37 μm spectra show strong pure-rotational lines from molecular hydrogen revealing a molecular component to the filaments which has an excitation temperature of ∼300−400 K. The flux in the 0−0 S(1) molecular hydrogen line correlates well with the strength of the optical lines, having about 3 per cent of the Hα+[N ii] emission. The 11.3-μm polycyclic aromatic hydrocarbon feature is seen in some spectra. Emission is also seen from both low- and high-ionization fine-structure lines. Molecular hydrogen cooler than ∼400 K dominates the mass of the outer filaments; the nebulae are predominantly molecular. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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16. Resolved spectroscopy of a gravitationally lensed L* Lyman-break galaxy at z∼ 5.
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Swinbank, A. M., Bower, R. G., Smith, Graham P., Wilman, R. J., Smail, Ian, Ellis, R. S., Morris, S. L., and Kneib, J.-P.
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GALAXIES ,SPECTRUM analysis ,REDSHIFT ,STAR formation ,ASTROPHYSICS - Abstract
We exploit the gravitational potential of a massive, rich cluster at to study the internal properties of a gravitationally lensed galaxy at . Using high-resolution Hubble Space Telescope imaging together with optical (VIMOS) and near-infrared (SINFONI) integral field spectroscopy, we have studied the rest-frame ultraviolet and optical properties of the lensed galaxy seen through the cluster RCS0224−002. Using a detailed gravitational lens model of the cluster, we reconstruct the source-frame morphology on 200 pc scales and find an Lyman-break galaxy with an intrinsic size of only , a velocity gradient of and an implied dynamical mass of within 2 kpc. We infer an integrated star formation rate of just from the intrinsic [O ii]λ3727 emission-line flux. The Lyα emission appears redshifted by with respect to the [O ii] emission. The Lyα is also significantly more extended than the nebular emission, extending over 11.9 × 2.4 kpc. Over this area, the Lyα centroid varies by less than . We model the asymmetric Lyα emission with an underlying Gaussian profile with an absorber in the blue wing and find that the underlying Lyα emission-line centroid is in excellent agreement with the [O ii] emission-line redshift. By examining the spatially resolved structure of the [O ii] and Lyα emission lines, we investigate the nature of this system. The model for local starburst galaxies suggested by Mas-Hesse et al. provides a good description of our data, and suggests that the galaxy is surrounded by a galactic-scale bipolar outflow which has recently bursted out of the system. The outflow, which appears to be currently located ≳30 kpc from the galaxy, is escaping at a speed of upto . Although the mass of the outflow is uncertain, the geometry and velocity of the outflow suggests that the ejected material is travelling far faster than escape velocity and will travel more than 1 Mpc (comoving) before eventually stalling. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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17. The association between gas and galaxies – II. The two-point correlation function.
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Wilman, R. J., Morris, S. L., Jannuzi, B. T., Dav, R., and Shone, A. M.
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GALAXIES , *ASTRONOMY , *QUASARS , *RADIO sources (Astronomy) , *ULTRAVIOLET spectroscopy , *SPECTRUM analysis - Abstract
We measure the two-point correlation function, , between galaxies and quasar absorption-line systems at , using the data set of Morris & Jannuzi on 16 lines-of-sight (LOS) with ultraviolet (UV) spectroscopy and galaxy multi-object spectroscopy (Paper I). The measurements are made in 2D redshift space out to Mpc (comoving) along the LOS and out to Mpc projected; as a function of H i column density in the range , also for C iv absorption systems, and as a function of galaxy spectral type. This extends the absorber–galaxy pair analysis of Paper I. We find that the amplitude of the peak in at the smallest separations increases slowly as the lower limit on is increased from 1013 to , and then jumps sharply (albeit with substantial uncertainties) for . For C iv absorbers, the peak strength of is roughly comparable to that of H i absorbers with , consistent with the finding that the C iv absorbers are associated with strong H i absorbers. We do not reproduce the differences reported by Chen et al. between 1D measurements using galaxy subsamples of different spectral types. However, the full impact on the measurements of systematic differences in our samples is hard to quantify. We compare the observations with smoothed particle hydrodynamical (SPH) simulations and discover that in the observations is more concentrated to the smallest separations than in the simulations. The latter also display a ‘finger of god’ elongation of along the LOS in redshift space, which is absent from our data, but similar to that found by Ryan-Weber for the cross-correlation of quasar absorbers and H i-emission-selected galaxies. The physical origin of these ‘fingers of god’ is unclear, and we thus highlight several possible areas for further investigation. [ABSTRACT FROM AUTHOR]
- Published
- 2007
- Full Text
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18. Integral field spectroscopy of Hα emission in cooling flow cluster cores: disturbing the molecular gas reservoir.
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Wilman, R. J., Edge, A. C., and Swinbank, A. M.
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ASTRONOMICAL spectroscopy , *SPECTRUM analysis , *GAS reservoirs , *ASTROPHYSICS , *GALAXIES , *ASTRONOMY - Abstract
We present optical integral field spectroscopy of the Hα-luminous central cluster galaxies in the cores of the cooling flow clusters A1664, A1835, A2204 and Zw8193. From the [N ii]+Hα complex in these moderate resolution (70–150 km s−1) spectra we derive 2D views of the distribution and kinematics of the emission-line gas, and further diagnostics from the [S ii] and [O i] lines. The Hα emission shows a variety of disturbed morphologies, ranging from smooth but distorted to clumpy and filamentary, with velocity gradients and splittings of several hundred km s−1 on spatial scales of 20 kpc or more. Despite the small sample size, there are some generic features. The most disturbed Hα emission appears to be associated with secondary galaxies within 10–20 kpc (projected) of the central galaxy and close in velocity to the Hα. The global Hα kinematics match those of the CO(1–0) emission in single-dish data. The [N ii]/Hα, [S ii]/Hα and [O i]/Hα ratios vary little with position, local Hα surface brightness or between clusters. We propose that the Hα and CO emission arise in molecular clouds heated by a starburst, and that the latter has been triggered by interaction with a secondary galaxy. Such CO emission is known to trace massive compact (<20 kpc) reservoirs of cool molecular gas, and it is plausible that an infalling galaxy would disturb this gas, distorting the Hα morphology and initiating widespread star formation. We also examine the role of cloud–cloud collisions in the undisturbed molecular gas reservoir, and suggest that they might be an important source of excitation for the emission-line gas in the cores of lower Hα luminosity clusters with less intense star formation. [ABSTRACT FROM AUTHOR]
- Published
- 2006
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19. X-rays from the Type II quasar in the hyperluminous infrared galaxy IRAS F15307+3252.
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Iwasawa, K., Crawford, C. S., Fabian, A. C., and Wilman, R. J.
- Subjects
GALAXIES ,INFRARED astronomy ,INFRARED radiation ,X-rays ,CLUSTER theory (Nuclear physics) ,QUASARS ,PROTON-induced X-ray emission - Abstract
We report the detection of X-ray emission from the hyperluminous infrared galaxy IRAS at and its properties obtained from XMM–Newton observations. Although the X-ray emission is very faint and the data are noisy, a prominent line-like feature in the observed 3–4 keV range is inferred from both photometric and spectroscopic techniques. It indicates an X-ray spectrum dominated by 6.4-keV Fe Kα emission and the presence of a Compton-thick active galactic nucleus. Our estimate of the luminosity of the illuminating source , required to produce the observed Fe Kα emission in reflection from cold matter, means that the hidden quasar nucleus accounts for a significant fraction of the large bolometric luminosity. The soft X-ray emission below 2 keV is found to be spatially extended and probably of a separate origin. The temperature and bolometric luminosity ( and ) obtained from a thermal spectrum place this X-ray source on the relation of galaxy clusters. The possible association with a galaxy cluster can be added to the list of remarkable similarities between IRAS and another hyperluminous infrared galaxy IRAS , both of which have bolometric luminosities dominated by hidden quasar nuclei. Our result on IRAS illustrates how difficult it is to detect Compton-thick Type II quasars at , particularly if their bolometric outputs do not rival the hyperluminous population. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
- View/download PDF
20. The nature of the molecular gas system in the core of NGC 1275.
- Author
-
Wilman, R. J., Edge, A. C., and Johnstone, R. M.
- Subjects
- *
GALAXIES , *NEAR infrared spectroscopy , *GALAXY clusters , *ASTRONOMICAL spectroscopy , *SPECTRUM analysis , *ASTRONOMY - Abstract
We present near-infrared integral field spectroscopy of the central kiloparsec of NGC 1275 at the heart of the Perseus cluster of galaxies, obtained with the Integral Field Unit (IFU) of the United Kingdom Infrared Telescope (UKIRT) Imaging Spectrometer (UIST). The nuclear ro-vibrational H2 emission is spatially resolved and is likely to originate approximately 50 pc from the active nucleus. The Paα emission is, by contrast, spatially unresolved. The requirements for thermal excitation of the H2 by nuclear X-radiation, its kinematics on subarcsec scales and its stability against self-gravity together suggest that the observed H2 is part of a clumpy disc rotating about the radio-jet axis. The sharp jump in the H2 velocity across the nucleus implies a black hole mass of, with a systematic error of±0.18 dex due to the uncertainty in the radio-jet inclination. This agrees well with the value implied by the empirical correlation between black hole mass and stellar velocity dispersion for nearby elliptical galaxies, and is∼100 times the stellar mass in this region. [ABSTRACT FROM AUTHOR]
- Published
- 2005
- Full Text
- View/download PDF
21. The discovery of a type II quasar at z= 1.65 with integral-field spectroscopy.
- Author
-
Jarvis, Matt J., van Breukelen, Caroline, and Wilman, R. J.
- Subjects
ASTRONOMICAL research ,QUASARS ,RADIO sources (Astronomy) ,ACTIVE galaxies ,GALAXIES ,SPECTROGRAPHS ,VERY Large Telescope (Chile) ,ASTRONOMICAL instruments ,RADIO galaxies ,SUPERMASSIVE black holes ,STELLAR populations - Abstract
In this Letter we report the serendipitous discovery of a genuine type II quasar at using integral-field data from the Visual Multi-Object Spectrograph (VIMOS) on the Very Large Telescope (VLT). This is the first discovery of a type II quasar at from optical data alone. J094531-242831, hereafter J0945-2428, exhibits strong narrow emission lines, has a resolved host galaxy, and is undetected to a radio flux density limit of . All of these characteristics lead us to believe that J0945-2428 is a bona fide type II quasar. The luminosity of the narrow emission lines in this object suggest that the intrinsic power of the central engine is similar to that found in powerful radio galaxies, indicative of a similarly large supermassive black hole of (assuming that it is accreting at its Eddington limit). However, from near-infrared imaging observations we find that the old stellar population in the host galaxy has a luminosity of ∼ 0.2 L
⋆ , mildly inconsistent with the correlation between black hole mass and bulge luminosity found locally, although the uncertainty in the black hole mass estimate is large. This discovery highlights the power that integral-field units have in discovering hidden populations of objects, particularly the sought-after type II quasars, which are invoked to explain the hard X-ray background. As such, future large integral-field surveys could open up a new window on the obscured accretion activity in the Universe. [ABSTRACT FROM AUTHOR]- Published
- 2005
- Full Text
- View/download PDF
22. Deep SAURON spectral imaging of the diffuse Lyman α halo LAB1 in SSA 22.
- Author
-
Bower, R. G., Morris, S. L., Bacon, R., Wilman, R. J., Sullivan, M., Chapman, S., Davies, R. L., de Zeeuw, P. T., and Emsellem, E.
- Subjects
ASTRONOMICAL photography ,REDSHIFT ,SPECTRUM analysis ,RADIATION ,SPECTROGRAPHS ,ASTRONOMICAL spectroscopy ,ASTROPHYSICS - Abstract
We have used the SAURON panoramic integral field spectrograph to study the structure of the Lyα emission-line halo, LAB1, surrounding the submillimetre galaxy SMM J221726+0013. This emission-line halo was discovered during a narrow-band imaging survey of the large-scale structure in the SSA 22 region. Our observations trace the emission halo out to almost 100 kpc from the submillimetre source and identify two distinct Lyα‘mini-haloes’ around the nearby Lyman-break galaxies. The main emission region has a broad line profile, with variations in the line profile seeming chaotic and lacking evidence for a coherent velocity structure. The data also suggest that Lyα emission is suppressed around the submillimetre source. Interpretation of the line structure needs care because Lyα may be resonantly scattered, leading to complex radiative transfer effects, and we suggest that the suppression in this region arises because of such effects. We compare the structure of the central emission-line halo with local counterparts, and find that the emission-line halo around NGC 1275 in the Perseus cluster may be a good local analogue, although the high-redshift halo is factor of ∼100 more luminous and appears to have higher velocity broadening. Around the Lyman-break galaxy C15, the emission line is narrower, and a clear shear in the emission wavelength is seen. A plausible explanation for the line profile is that the emission gas is expelled from C15 in a bipolar outflow, similar to that seen in M82. [ABSTRACT FROM AUTHOR]
- Published
- 2004
- Full Text
- View/download PDF
23. The clustering of sub-mJy radio sources in the Bootes Deep Field.
- Author
-
Wilman, R. J., Röttgering, H. J. A., Overzier, R. A., and Jarvis, M. J.
- Subjects
- *
RADIO sources (Astronomy) , *STARBURSTS - Abstract
ABSTRACT We measure the angular clustering of ∼2000 radio sources in the Bootes Deep Field, covering 5.3 deg[sup 2] down to S[sub 1.4GHz]= 0.2 mJy . With reference to work by Blake & Wall, we show that the size distribution of multi-component radio galaxies dominates the overall clustering signal, and that its amplitude extrapolates smoothly from their measurements above 5 mJy. The upper limits on any true galaxy–galaxy clustering are consistent with the clustering of sub-mJy radio-loud active galatic nuclei (AGN) being effectively diluted by the more weakly clustered IRAS-type starburst galaxies. Source count models imply that the survey contains ≃400 of the latter galaxies above 0.2 mJy out to z∼ 1–2 . Measurement of their clustering must await their identification via the optical and infrared data due on this field. [ABSTRACT FROM AUTHOR]
- Published
- 2003
- Full Text
- View/download PDF
24. Probing the absorbing haloes around two high-redshift radio galaxies with VLT-UVES★.
- Author
-
Jarvis, M. J., Wilman, R. J., Röttgering, H. J. A., and Binette, L.
- Subjects
- *
RADIO galaxies , *REDSHIFT , *ECHELLE gratings - Abstract
We present VLT-UVES echelle spectroscopy of the H I and C IV absorption in the spatially extended Lyα emission around two high-redshift radio galaxies 0200 + 015 (z = 2.23) and 0943-242 (z = 2.92). The absorbers in 0943-242 exhibit little additional structure compared with previous lowresolution spectroscopy and the main absorber is still consistent with a H I column density of ∼ 10[sup 19] cm[sup -2]. This is consistent with a picture in which the absorbing gas has low density and low metallicity and is distributed in a smooth absorbing shell located beyond the emission-line gas. However, the main absorbers in 0200 + 015 are very different. The previous single-absorber fit of H I column density ...10[sup 19] cm[sup -2] now splits into two ∼4 × 10[sup 14] cm[sup -2] absorbers which extend more than 15 kpc to obscure additional Lyα emission coincident with a radio lobe in these high-resolution observations. Although consistent with the shell-like distribution for the absorption systems, 0200 + 015 requires a much higher metal enrichment than 0943-242. The metallicity, inferred from the C IV absorption, is considerably lower in 0943-242 than in 0200 + 015. We explain these differences with an evolutionary scenario based on the size of the radio source. In both sources the H I absorption gas originates from either a gas-rich merger or pristine cluster gas which cools and collapses towards the centre of the dark matter halo. The higher metallicity in the larger radio source (0200 + 015) may be a result of a starburst-driven superwind (concurrent with the triggering of the radio emission) which has engulfed the outer halo in this older source. We also find a significant blue asymmetry in the He II λ 1640 emission line, suggesting that the line-emitting gas is outflowing from the central regions. Dust obscuration toward the central engine, presumably due to the dusty toms invoked in the unified scheme, prevents us from seeing outflow... [ABSTRACT FROM AUTHOR]
- Published
- 2003
- Full Text
- View/download PDF
25. Probing the absorbing haloes around two high-redshift radio galaxies with VLT-UVES★.
- Author
-
Jarvis, M. J., Wilman, R. J., Röttgering, H. J. A., and Binette, L.
- Subjects
RADIO galaxies ,REDSHIFT ,ECHELLE gratings - Abstract
We present VLT-UVES echelle spectroscopy of the H I and C IV absorption in the spatially extended Lyα emission around two high-redshift radio galaxies 0200 + 015 (z = 2.23) and 0943-242 (z = 2.92). The absorbers in 0943-242 exhibit little additional structure compared with previous lowresolution spectroscopy and the main absorber is still consistent with a H I column density of ∼ 10[sup 19] cm[sup -2]. This is consistent with a picture in which the absorbing gas has low density and low metallicity and is distributed in a smooth absorbing shell located beyond the emission-line gas. However, the main absorbers in 0200 + 015 are very different. The previous single-absorber fit of H I column density ...10[sup 19] cm[sup -2] now splits into two ∼4 × 10[sup 14] cm[sup -2] absorbers which extend more than 15 kpc to obscure additional Lyα emission coincident with a radio lobe in these high-resolution observations. Although consistent with the shell-like distribution for the absorption systems, 0200 + 015 requires a much higher metal enrichment than 0943-242. The metallicity, inferred from the C IV absorption, is considerably lower in 0943-242 than in 0200 + 015. We explain these differences with an evolutionary scenario based on the size of the radio source. In both sources the H I absorption gas originates from either a gas-rich merger or pristine cluster gas which cools and collapses towards the centre of the dark matter halo. The higher metallicity in the larger radio source (0200 + 015) may be a result of a starburst-driven superwind (concurrent with the triggering of the radio emission) which has engulfed the outer halo in this older source. We also find a significant blue asymmetry in the He II λ 1640 emission line, suggesting that the line-emitting gas is outflowing from the central regions. Dust obscuration toward the central engine, presumably due to the dusty toms invoked in the unified scheme, prevents us from seeing outflow... [ABSTRACT FROM AUTHOR]
- Published
- 2003
- Full Text
- View/download PDF
26. A survey of molecular hydrogen in the central galaxies of cooling flows.
- Author
-
Edge, A. C., Wilman, R. J., Johnstone, R. M., Crawford, C. S., Fabian, A. C., and Allen, S. W.
- Subjects
- *
GALAXY clusters , *SPECTRUM analysis , *STELLAR luminosity function - Abstract
Abstract We present a large sample of H - and K -band spectra of 32 optically line-luminous central cluster galaxies. We find significant rovibrational H 2 emission in 23 of these galaxies as well as H recombination and/or [Fe ii] emission in another five. This represents a fourfold increase in the number of molecular line detections known. A number of the detections are of extended emission (5–20 kpc). In several objects we find significant [Si vi] emission that appears to correlate with the strength of high ionization lines in the optical (e.g. [O iii]). This comprehensive sample builds on previous work and confirms that warm (1000–2500 K) molecular hydrogen is present wherever there is ionized material in the cores of cooling flows and in most cases it also coincides with CO molecular line emission. [ABSTRACT FROM AUTHOR]
- Published
- 2002
- Full Text
- View/download PDF
27. Exciting molecular hydrogen in the central galaxies of cooling flows.
- Author
-
Wilman, R. J., Edge, A. C., Johnstone, R. M., Fabian, A. C., Allen, S. W., and Crawford, C. S.
- Subjects
- *
GALAXY clusters , *SPECTRUM analysis , *ULTRAVIOLET radiation - Abstract
The origin of rovibrational H[sub 2] emission in the central galaxies of cooling flow clusters is poorly understood. Here we address this issue using data from our near-infrared spectroscopic survey of 32 of the most line-luminous such systems, presented in the companion paper by Edge et al. We consider excitation by X-rays from the surrounding intracluster medium (ICM), ultraviolet (UV) radiation from young stars, and shocks. The v = 1-0 K-band lines with upper levels within 10[sup 4] K of the ground state appear to be mostly thermalized (implying gas densities ... 10[sup 5] cm[sup -3]), with the excitation temperature typically exceeding 2000 K, as found earlier by Jaffe, Bremer & van der Werf. Together with the lack of strong v = 2-0 lines in the H-band, this rules out UV radiative fluorescence. Using the CLOUDY photoionization code, we deduce that the H[sub 2] lines can originate in a population of dense clouds, exposed to the same hot (T ∼ 50000 K) stellar continuum as the lower density gas which produces the bulk of the forbidden optical line emission in the Hα-luminous systems. This dense gas may be in the form of self-gravitating clouds deposited directly by the cooling flow, or may instead be produced in the high-pressure zones behind strong shocks. Furthermore, the shocked gas is likely to be gravitationally unstable, so collisions between the larger clouds may lead to the formation of globular clusters. [ABSTRACT FROM AUTHOR]
- Published
- 2002
- Full Text
- View/download PDF
28. Multiwavelength observations of serendipitous Chandra X-ray sources in the field of A 2390.
- Author
-
Crawford, C. S., Gandhi, P., Fabian, A. C., Wilman, R. J., Johnstone, R. M., Barger, A. J., and Cowie, L. L.
- Subjects
ARTIFICIAL satellites ,GALAXIES - Abstract
We present optical spectra and near-infrared imaging of a sample of 31 serendipitous X-ray sources detected in the field of Chandra observations of the A 2390 cluster of galaxies. The sources have 0.5–7 keV fluxes of (0.6–8)×10[sup -14] erg cm[sup -2] s[sup -1] and lie around the break in the 2–10 keV source counts. They are therefore typical of sources dominating the X-ray Background in that band. 12 of the 15 targets for which we have optical spectra show emission lines at a range of line luminosities, and half of these show broad lines. These active galaxies and quasars have soft X-ray spectra. Including photometric redshifts and published spectra, we have redshifts for 17 of the sources, ranging from z∼0.2 up to z∼3 , with a peak between z=1–2 . 10 of our sources have hard X-ray spectra indicating a spectral slope flatter than that of a typical unabsorbed quasar. Two hard sources that are gravitationally lensed by the foreground cluster are obscured quasars, with intrinsic 2–10 keV luminosities of (0.2–3)×10[sup 45] erg s[sup -1] , and absorbing columns of N[sub H]>10[sup 23] cm[sup -2] . Both of these sources were detected in the mid-infrared by ISOCAM on the Infrared Space Observatory, which when combined with radiative transfer modelling leads to the prediction that the bulk of the reprocessed flux emerges at ∼100 μm. [ABSTRACT FROM AUTHOR]
- Published
- 2002
- Full Text
- View/download PDF
29. A physical model for the hard X-ray background.
- Author
-
Wilman, R. J., Fabian, A. C., and Nulsen, P. E. J.
- Subjects
- *
X-ray astronomy , *ACTIVE galactic nuclei - Abstract
We combine a semi-analytic galaxy formation model with a prescription for the obscured growth of massive black holes, to reproduce the hard X-ray background (XRB), the local 2–10 keV active galactic nuclei (AGN) luminosity function and the source counts, including recent Chandra results. The model also complies with constraints on the AGN contribution to the far-infrared and submillimetre backgrounds. The comoving density of luminous AGN in the unabsorbed rest-frame] in the model declines sharply since mimicking the observed evolution of the quasar population. The abundance of lower luminosity AGN simultaneously increases, and we identify such objects with the Seyfert galaxies. These features reflect an epoch-dependent rate of Bondi accretion from the hot, cooling atmosphere: at most AGN are fed at much less than 10 per cent of the Eddington rate, whilst at most accrete at 10–50 per cent Eddington. Unlike other models for quasar and galaxy formation, we do not consider major mergers between normal galaxies. The model produces an excess soft XRB below 4 keV which can be removed by modifying the wind expulsion model of Fabian to incorporate anisotropic ejection. [ABSTRACT FROM AUTHOR]
- Published
- 2000
- Full Text
- View/download PDF
30. Hot dust in two hard Chandra X-ray sources.
- Author
-
Wilman, R. J., Fabian, A. C., and Gandhi, P.
- Subjects
- *
DUST , *ARTIFICIAL satellites , *RADIATIVE transfer , *INFRARED spectra , *ACTIVE galactic nuclei , *MATHEMATICAL models - Abstract
The two brightest hard X-ray sources discovered serendipitously by Chandra in the field of the lensing cluster A2390 are found to have ISOCAM counterparts at 6.7 and 15 μm. We use this fact, together with their non-detection by SCUBA at 850 μm, as the basis for dusty radiative transfer modelling of their infrared spectral energy distributions. For the best-fitting models, we find that the dust that reprocesses the optical–ultraviolet light in these Compton-thin active galactic nuclei (AGN) is heated to near its sublimation temperature (above 1000 K), with an inner radius within a parsec of the nucleus. Some warm-dust models with inner temperatures of 200 K are also formally acceptable. These findings strongly support the obscured AGN hypothesis for the new hard X-ray Chandra sources, which lack both strong emission lines and 850-μm SCUBA detections. [ABSTRACT FROM AUTHOR]
- Published
- 2000
- Full Text
- View/download PDF
31. Testing the connection between the X-ray and submillimetre source populations using Chandra.
- Author
-
Fabian, A. C., Smail, Ian, Iwasawa, K., Allen, S. W., Blain, A. W., Crawford, C. S., Ettori, S., Ivison, R. J., Johnstone, R. M., Kneib, J.-P., and Wilman, R. J.
- Subjects
X-ray astronomy ,SUBMILLIMETER astronomy ,ARTIFICIAL satellites - Abstract
The powerful combination of the Chandra X-ray telescope, the SCUBA submillimetre-wave camera and the gravitational lensing effect of the massive galaxy clusters A2390 and A1835 has been used to place stringent X-ray flux limits on six faint submillimetre SCUBA sources and deep submillimetre limits on three Chandra sources which lie in fields common to both instruments. One further source is marginally detected in both the X-ray and submillimetre bands. For all the SCUBA sources our results are consistent with starburst-dominated emission. For two objects, including SMMJ 14011+0252 at z=2.55, the constraints are strong enough that they can only host powerful active galactic nuclei if they are both Compton-thick and any scattered X-ray flux is weak or itself absorbed. The lensing amplification for the sources is in the range 1.5–7, assuming that they lie at z>=1. The brightest detected X-ray source has a faint extended optical counterpart (Iapprox. 22) with colours consistent with a galaxy at z=1. The X-ray spectrum of this galaxy is hard, implying strong intrinsic absorption with a column density of about 10[sup 23] cm[sup -2] and an intrinsic (unabsorbed) 2–10 keV luminosity of 3×10[sup 44] erg s[sup -1]. This source is therefore a Type II quasar. The weakest detected X-ray sources are not detected in Hubble Space Telescope images down to I=26. [ABSTRACT FROM AUTHOR]
- Published
- 2000
- Full Text
- View/download PDF
32. Limits on the X-ray emission from several hyperluminous IRAS galaxies.
- Author
-
Wilman, R. J., Fabian, A. C., Cutri, R. M., Crawford, C. S., and Brandt, W. N.
- Published
- 1998
- Full Text
- View/download PDF
33. XMM–Newton observations of two hyperluminous IRAS galaxies: Compton-thick quasars with obscuring starbursts.
- Author
-
Wilman, R. J., Fabian, A. C., Crawford, C. S., and Cutri, R. M.
- Subjects
- *
GALAXIES , *QUASARS , *STARBURSTS - Abstract
We present XMM-Newton observations of two hyperluminous IRAS galaxies (L[sub Bol] > 10[sup 13] h[sup -2][sub 50] L...), neither of which were previously detected by ROSAT. Published models of the infrared spectral energy distributions imply that a starburst and obscured quasar contribute equally to the power of each source. IRAS F12514+1027 (z = 0.30) is detected in 18.6 ks with 130 EPIC-pn counts over 0.2-12 keV. The soft X-ray spectrum exhibits thermal emission from the starburst, with T ... 0.3 keV and L (0.5-2.0 keV) =2.1 × 10[sup 42] erg s[sup -1]. With its Fe K-edge, the fiat continuum above 2 keV is interpreted as cold reflection from a hidden AGN of intrinsic L (2-10 keV) ... 1.8 × 10[sup 44]ergs[sup -1]. Comparison with the infrared power requires that the X-ray reflector subtend ∼2π/5 sr at the central engine. IRAS F00235+ 1024 (z = 0.575) is not detected by the EPIC-pn in 15.9 ks; the limits imply that the starburst is X-ray weak, and (for the AGN) that any hard X-ray reflector subtend < 2π/5 sr. The direct lines of sight to the AGN in both objects are Compton-thick (NH > 1.5 × 10[sup 24] cm[sup -2]), and the presence of a reflection component in F12514+1027, but not in F00235+1024, suggests that the AGN in the latter object is more completely obscured. This is consistent with their Seyfert-2 and starburst optical spectra, respectively. [ABSTRACT FROM AUTHOR]
- Published
- 2003
- Full Text
- View/download PDF
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