MeerKAT

The preferentially magnified active nucleus in IRAS F10214+4724 - I. Lens model and spatially resolved radio emission

Monthly Notices of the Royal Astronomical Society 430:1 (2013) 2-21

Authors:

RP Deane, S Rawlings, PJ Marshall, I Heywood, HR Klöckner, K Grainge, T Mauch, S Serjeant

Abstract:

This is the first paper in a series that presents a multiwavelength analysis of the archetype ultraluminous infrared galaxy IRAS F10214+4724, a gravitationally lensed, starburst/active galactic nucleus at z = 2.3. Here we present a new lens model and spatially resolved radio data, as well as a deep Hubble Space Telescope (HST) F160W map. The lens modelling employs a Bayesian Markov chain Monte Carlo algorithm with extended source, forward ray tracing. Using these high-resolution HST, Multi-Element Radio Linked Interferometer Network (MERLIN) and Very Large Array (VLA) maps, the algorithm allows us to constrain the level of distortion to the continuum spectral energy distribution resulting from emission components with differing magnification factors, due to their size and proximity to the caustic. Our lens model finds that the narrow-line region, and by proxy the active nucleus, is preferentially magnified. This supports previous claims that preferential magnification could mask the expected polycyclic aromatic hydrocarbon spectral features in the Spitzer mid-infrared spectrum which roughly trace the star-forming regions. Furthermore, we show that the arc-to-counter-image flux ratio is not a good estimate of the magnification in this system, despite its common use in the IRAS F10214+4724 literature. Our lens modelling suggests magnifications of μ ∼ 15-20 ± 2 for the HST F814W, MERLIN 1.7 GHz and VLA 8 GHz maps, significantly lower than the canonical values of μ = 50-100 often used for this system. Systematic errors such as the dark matter density slope and colocation of stellar and dark matter centroids dominate the uncertainties in the lens model at the 40 per cent level. © 2013 The Authors. Published by Oxford University Press on behalf of the Royal Astronomical Society.

GAMA/H-ATLAS: THE DUST OPACITY–STELLAR MASS SURFACE DENSITY RELATION FOR SPIRAL GALAXIES

The Astrophysical Journal American Astronomical Society 766:1 (2013) 59

Authors:

MW Grootes, RJ Tuffs, CC Popescu, B Pastrav, E Andrae, M Gunawardhana, LS Kelvin, J Liske, M Seibert, EN Taylor, Alister W Graham, M Baes, IK Baldry, N Bourne, S Brough, A Cooray, A Dariush, G De Zotti, SP Driver, L Dunne, H Gomez, AM Hopkins, R Hopwood, M Jarvis, J Loveday, S Maddox, BF Madore, MJ Michałowski, P Norberg, HR Parkinson, M Prescott, ASG Robotham, DJB Smith, D Thomas, E Valiante

Formation of the compact jets in the black hole GX 339-4

(2013)

Authors:

S Corbel, H Aussel, JW Broderick, P Chanial, M Coriat, AJ Maury, M Buxton, JA Tomsick A Tzioumis, S Markoff, J Rodriguez, C Bailyn, C Brocksopp, R Fender, PO Petrucci, M Cadolle-Bel, D Calvelo, L Harvey-Smith

Herschel-ATLAS/GAMA: A difference between star formation rates in strong-line and weak-line radio galaxies

Monthly Notices of the Royal Astronomical Society 429:3 (2013) 2407-2424

Authors:

MJ Hardcastle, JHY Ching, JS Virdee, MJ Jarvis, SM Croom, EM Sadler, T Mauch, DJB Smith, JA Stevens, M Baes, IK Baldry, S Brough, A Cooray, A Dariush, G De Zotti, S Driver, L Dunne, S Dye, S Eales, R Hopwood, J Liske, S Maddox, MJ Michałowski, EE Rigby, ASG Robotham, O Steele, D Thomas, E Valiante

Abstract:

We have constructed a sample of radio-loud objects with optical spectroscopy from the Galaxy and Mass Assembly (GAMA) project over the Herschel Astrophysical Terahertz Large Area Survey (Herschel-ATLAS) Phase 1 fields. Classifying the radio sources in terms of their optical spectra, we find that strong-emission-line sources ('high-excitation radio galaxies') have, on average, a factor of ~4 higher 250-μm Herschel luminosity than weak-line ('lowexcitation') radio galaxies and are also more luminous than magnitude-matched radio-quiet galaxies at the same redshift. Using all five H-ATLAS bands, we show that this difference in luminosity between the emission-line classes arises mostly from a difference in the average dust temperature; strong-emission-line sources tend to have comparable dust masses to, but higher dust temperatures than, radio galaxies with weak emission lines. We interpret this as showing that radio galaxies with strong nuclear emission lines are much more likely to be associated with star formation in their host galaxy, although there is certainly not a one-to-one relationship between star formation and strong-line active galactic nuclei (AGN) activity. The strong-line sources are estimated to have star formation rates at least a factor of 3-4 higher than those in the weak-line objects. Our conclusion is consistent with earlier work, generally carried out using much smaller samples, and reinforces the general picture of high-excitation radio galaxies as being located in lower-mass, less evolved host galaxies than their low-excitation counterparts. © 2013 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society.

The coordinated radio and infrared survey for high-mass star formation. II. source catalog

Astrophysical Journal, Supplement Series 205:1 (2013)

Authors:

CR Purcell, MG Hoare, WD Cotton, SL Lumsden, JS Urquhart, C Chandler, EB Churchwell, P Diamond, SM Dougherty, RP Fender, G Fuller, ST Garrington, TM Gledhill, PF Goldsmith, L Hindson, JM Jackson, SE Kurtz, J Martí, TJT Moore, LG Mundy, TWB Muxlow, RD Oudmaijer, JD Pandian, JM Paredes, DS Shepherd, S Smethurst, RE Spencer, MA Thompson, G Umana, AA Zijlstra

Abstract:

The CORNISH project is the highest resolution radio continuum survey of the Galactic plane to date. It is the 5 GHz radio continuum part of a series of multi-wavelength surveys that focus on the northern GLIMPSE region (10° < l < 65°), observed by the Spitzer satellite in the mid-infrared. Observations with the Very Large Array in B and BnA configurations have yielded a 1.″5 resolution Stokes I map with a root mean square noise level better than 0.4 mJy beam-1. Here we describe the data-processing methods and data characteristics, and present a new, uniform catalog of compact radio emission. This includes an implementation of automatic deconvolution that provides much more reliable imaging than standard CLEANing. A rigorous investigation of the noise characteristics and reliability of source detection has been carried out. We show that the survey is optimized to detect emission on size scales up to 14″ and for unresolved sources the catalog is more than 90% complete at a flux density of 3.9 mJy. We have detected 3062 sources above a 7σ detection limit and present their ensemble properties. The catalog is highly reliable away from regions containing poorly sampled extended emission, which comprise less than 2% of the survey area. Imaging problems have been mitigated by down-weighting the shortest spacings and potential artifacts flagged via a rigorous manual inspection with reference to the Spitzer infrared data. We present images of the most common source types found: H II regions, planetary nebulae, and radio galaxies. The CORNISH data and catalog are available online at http://cornish.leeds.ac.uk. © 2013. The American Astronomical Society. All rights reserved.