Galaxy formation and evolution

LOFAR/H-ATLAS: a deep low-frequency survey of the Herschel-ATLAS North Galactic Pole field

Monthly Notices of the Royal Astronomical Society Oxford University Press 462:2 (2016) 1910-1936

Authors:

Martin J Hardcastle, Gulay Gürkan, Reinout J van Weeren, Wendy L Williams, Philip N Best, Francesco de Gasperin, David A Rafferty, Sean C Read, José Sabater Montes, Tim W Shimwell, Daniel JB Smith, Cyril Tasse, Nathan Bourne, Marissa Brienza, Marcus Brüggen, Gianfranco Brunetti, Krzysztof T Chyży, John Conway, Loretta Dunne, Steve A Eales, Steve J Maddox, Matthew Jarvis, Elizabeth K Mahony, Raffaella Morganti, Isabella Prandoni, Huub JA Röttgering, Elisabetta Valiante, Glenn J White

Abstract:

We present Low-Frequency Array (LOFAR) High-Band Array observations of the Herschel-ATLAS North Galactic Pole survey area. The survey we have carried out, consisting of four pointings covering around 142 deg2 of sky in the frequency range 126–173 MHz, does not provide uniform noise coverage but otherwise is representative of the quality of data to be expected in the planned LOFAR wide-area surveys, and has been reduced using recently developed ‘facet calibration’ methods at a resolution approaching the full resolution of the data sets (∼10 × 6 arcsec) and an rms off-source noise that ranges from 100 μJy beam−1 in the centre of the best fields to around 2 mJy beam−1 at the furthest extent of our imaging. We describe the imaging, cataloguing and source identification processes, and present some initial science results based on a 5σ source catalogue. These include (i) an initial look at the radio/far-infrared correlation at 150 MHz, showing that many Herschel sources are not yet detected by LOFAR; (ii) number counts at 150 MHz, including, for the first time, observational constraints on the numbers of star-forming galaxies; (iii) the 150-MHz luminosity functions for active and star-forming galaxies, which agree well with determinations at higher frequencies at low redshift, and show strong redshift evolution of the star-forming population; and (iv) some discussion of the implications of our observations for studies of radio galaxy life cycles.

The SLUGGS survey: a new mask design to reconstruct the stellar populations and kinematics of both inner and outer galaxy regions

(2016)

Authors:

Nicola Pastorello, Duncan A Forbes, Adriano Poci, Aaron J Romanowsky, Richard McDermid, Adebusola B Alabi, Jean P Brodie, Michele Cappellari, Vincenzo Pota, Caroline Foster

Bursty star formation feedback and cooling outflows

(2016)

Authors:

Teresita Suarez, Andrew Pontzen, Hiranya V Peiris, Adrianne Slyz, Julien Devriendt

The SCUBA-2 Cosmology Legacy Survey: 850um maps, catalogues and number counts

(2016)

Authors:

JE Geach, JS Dunlop, M Halpern, Ian Smail, P van der Werf, DM Alexander, O Almaini, I Aretxaga, V Arumugam, V Asboth, M Banerji, J Beanlands, PN Best, AW Blain, M Birkinshaw, EL Chapin, SC Chapman, C-C Chen, A Chrysostomou, C Clarke, DL Clements, C Conselice, KEK Coppin, WI Cowley, ALR Danielson, S Eales, AC Edge, D Farrah, A Gibb, CM Harrison, NK Hine, D Hughes, RJ Ivison, M Jarvis, T Jenness, SF Jones, A Karim, M Koprowski, KK Knudsen, CG Lacey, T Mackenzie, G Marsden, K McAlpine, R McMahon, R Meijerink, MJ Michalowski, SJ Oliver, MJ Page, JA Peacock, D Rigopoulou, EI Robson, I Roseboom, K Rotermund, Douglas Scott, S Serjeant, C Simpson, JM Simpson, DJB Smith, M Spaans, F Stanley, JA Stevens, AM Swinbank, T Targett, AP Thomson, E Valiante, TMA Webb, C Willott, JA Zavala, M Zemcov

Modeling Lyman-α Forest Cross-Correlations with LyMAS

Monthly Notices of the Royal Astronomical Society Oxford University Press (2016)

Authors:

Cassandra Lochhaas, David H Weinberg, Sebastien Peirani, Yohan Dubois, Stephane Colombi, Jeremy Blaizot, Andreu Font-Ribera, Christophe Pichon, Julien Devriendt

Abstract:

We use the Ly-$\alpha$ Mass Association Scheme (LyMAS; Peirani et al. 2014) to predict cross-correlations at $z=2.5$ between dark matter halos and transmitted flux in the Ly-$\alpha$ forest, and compare to cross-correlations measured for quasars and damped Ly-$\alpha$ systems (DLAs) from the Baryon Oscillation Spectroscopic Survey (BOSS) by Font-Ribera et al. (2012, 2013). We calibrate LyMAS using Horizon-AGN hydrodynamical cosmological simulations of a $(100\ h^{-1}\ \mathrm{Mpc})^3$ comoving volume. We apply this calibration to a $(1\ h^{-1}\ \mathrm{Gpc})^3$ simulation realized with $2048^3$ dark matter particles. In the 100 $h^{-1}$ Mpc box, LyMAS reproduces the halo-flux correlations computed from the full hydrodynamic gas distribution very well. In the 1 $h^{-1}$ Gpc box, the amplitude of the large scale cross-correlation tracks the halo bias $b_h$ as expected. We provide empirical fitting functions that describe our numerical results. In the transverse separation bins used for the BOSS analyses, LyMAS cross-correlation predictions follow linear theory accurately down to small scales. Fitting the BOSS measurements requires inclusion of random velocity errors; we find best-fit RMS velocity errors of 399 km s$^{-1}$ and 252 km s$^{-1}$ for quasars and DLAs, respectively. We infer bias-weighted mean halo masses of $M_h/10^{12}\ h^{-1}M_\odot=2.19^{+0.16}_{-0.15}$ and $0.69^{+0.16}_{-0.14}$ for the host halos of quasars and DLAs, with $\sim 0.2$ dex systematic uncertainty associated with redshift evolution, IGM parameters, and selection of data fitting range.