The Square Kilometre Array (SKA)

A complete distribution of redshifts for submillimetre galaxies in the SCUBA-2 Cosmology Legacy Survey UDS field

Monthly Notices of the Royal Astronomical Society Oxford University Press 471:2 (2017) 2453-2462

Authors:

DJB Smith, CC Hayward, Matthew J Jarvis, C Simpson

Abstract:

Sub-milllimetre galaxies (SMGs) are some of the most luminous star-forming galaxies in the Universe, however their properties remain hard to determine due to the difficulty of identifying their optical\slash near-infrared counterparts. One of the key steps to determining the nature of SMGs is measuring a redshift distribution representative of the whole population. We do this by applying statistical techniques to a sample of 761 850$\mu$m sources from the SCUBA-2 Cosmology Legacy Survey observations of the UKIDSS Ultra-Deep Survey (UDS) Field. We detect excess galaxies around $> 98.4$ per cent of the 850$\mu$m positions in the deep UDS catalogue, giving us the first 850$\mu$m selected sample to have virtually complete optical\slash near-infrared redshift information. Under the reasonable assumption that the redshifts of the excess galaxies are representative of the SMGs themselves, we derive a median SMG redshift of $z = 2.05 \pm 0.03$, with 68 per cent of SMGs residing between $1.07 < z < 3.06$. We find an average of $1.52\pm 0.09$ excess $K$-band galaxies within 12 arc sec of an 850$\mu$m position, with an average stellar mass of $2.2\pm 0.1 \times 10^{10}$ M$_\odot$. While the vast majority of excess galaxies are star-forming, $8.0 \pm 2.1$ per cent have passive rest-frame colours, and are therefore unlikely to be detected at sub-millimetre wavelengths even in deep interferometry. We show that brighter SMGs lie at higher redshifts, and use our SMG redshift distribution -- along with the assumption of a universal far-infrared SED -- to estimate that SMGs contribute around 30 per cent of the cosmic star formation rate density between $0.5 < z < 5.0$.

Resolved, expanding jets in the Galactic black hole candidate XTE J1908+094

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 468:3 (2017) 2788-2802

Authors:

AP Rushton, JCA Miller-Jones, PA Curran, GR Sivakoff, MP Rupen, Z Paragi, RE Spencer, J Yang, D Altamirano, T Belloni, RP Fender, HA Krimm, D Maitra, S Migliari, DM Russell, TD Russell, R Soria, V Tudose

Cherenkov telescope array extragalactic survey discovery potential and the impact of axion-like particles and secondary gamma rays

ASTROPARTICLE PHYSICS 93 (2017) 8-16

Authors:

A De Franco, Y Inoue, MA Sanchez-Conde, G Cotter

The prevalence of core emission in faint radio galaxies in the SKA Simulated Skies

Monthly Notices of the Royal Astronomical Society Oxford University Press 471:1 (2017) 908-913

Authors:

IH Whittam, Matthew Jarvis, DA Green, I Heywood, JM Riley

Abstract:

Empirical simulations based on extrapolations from well-established low-frequency (<5 GHz) surveys fail to accurately model the faint, high frequency (>10 GHz) source population; they underpredict the number of observed sources by a factor of 2 below S18GHz = 10 mJy and fail to reproduce the observed spectral index distribution. We suggest that this is because the faint radio galaxies are not modelled correctly in the simulations and show that by adding a flat-spectrum core component to the Fanaroff and Riley type-I (FRI) sources in the Square Kilometre Array (SKA) Simulated Skies, the observed 15 GHz source counts can be reproduced. We find that the observations are best matched by assuming that the fraction of the total 1.4 GHz flux density that originates from the core varies with 1.4 GHz luminosity; sources with 1.4 GHz luminosities < 1025 W Hz − 1 require a core fraction ∼0.3, while the more luminous sources require a much smaller core fraction of 5 × 10−4. The low luminosity FRI sources with high core fractions that were not included in the original simulation may be equivalent to the compact ‘FR0’ sources found in recent studies.

Far-infrared emission in luminous quasars accompanied by nuclear outflows

Monthly Notices of the Royal Astronomical Society Oxford University Press 470:2 (2017) 2314-2319

Authors:

N Maddox, Matthew Jarvis, M Banerji, PC Hewett, N Bourne, L Dunne, S Dye, S Eales, C Furlanetto, SJ Maddox, MWL Smith, E Valiante

Abstract:

Combining large-area optical quasar surveys with the new far-infrared (FIR) Herschel-ATLAS Data Release 1, we search for an observational signature associated with the minority of quasars possessing bright FIR luminosities. We find that FIR-bright quasars show broad C IV emission-line blueshifts in excess of that expected from the optical luminosity alone, indicating particularly powerful nuclear outflows. The quasars show no signs of having redder optical colours than the general ensemble of optically selected quasars, ruling out differences in lineof- sight dustwithin the host galaxies.We postulate that these objectsmay be caught in a special evolutionary phase, with unobscured, high black hole accretion rates and correspondingly strong nuclear outflows. The high FIR emission found in these objects is then either a result of star formation related to the outflow, or is due to dust within the host galaxy illuminated by the quasar. We are thus directly witnessing coincident small-scale nuclear processes and galaxy-wide activity, commonly invoked in galaxy simulations that rely on feedback from quasars to influence galaxy evolution.