Galaxy formation and evolution

Star formation in nearby early-type galaxies: The radio continuum perspective

Monthly Notices of the Royal Astronomical Society Oxford University Press 464:1 (2016) 1029-1064

Authors:

Martin Bureau, Kristina Nyland, Lisa M Young, Joan M Wrobel, Timothy A Davis, Katherine Alatalo, Raffaella Morganti, Pierre-Alain Duc, P Tim de Zeeuw, Richard M McDermid, Alison F Crocker, Tom Oosterloo

Abstract:

We present a 1.4 GHz Karl G. Jansky Very Large Array (VLA) study of a sample of early-type galaxies (ETGs) from the volume- and magnitude-limited ATLAS3D survey. The radio morphologies of these ETGs at a resolution of θFWHM ≈ 5'' are diverse and include sources that are compact on sub-kpc scales, resolved structures similar to those seen in star-forming spiral galaxies, and kpc-scale radio jets/lobes associated with active nuclei. We compare the 1.4 GHz, molecular gas, and infrared (IR) properties of these ETGs. The most CO-rich ATLAS3D ETGs have radio luminosities consistent with extrapolations from H2 mass-derived star formation rates from studies of late-type galaxies. These ETGs also follow the radio-IR correlation. However, ETGs with lower molecular gas masses tend to have less radio emission relative to their CO and IR emission compared to spirals. The fraction of galaxies in our sample with high IR-radio ratios is much higher than in previous studies, and cannot be explained by a systematic underestimation of the radio luminosity due to the presence extended, low-surface-brightness emission that was resolved-out in our VLA observations. In addition, we find that the high IR-radio ratios tend to occur at low IR luminosities, but are not associated with low dynamical mass or metallicity. Thus, we have identified a population of ETGs that have a genuine shortfall of radio emission relative to both their IR and molecular gas emission. A number of mechanisms may conspire to cause this radio deficiency, including a bottom-heavy stellar initial mass function, weak magnetic fields, a higher prevalence of environmental effects compared to spirals and enhanced cosmic ray losses

The radio spectral energy distribution of infrared-faint radio sources

Astronomy and Astrophysics EDP Sciences 593 (2016) A130

Authors:

A Herzog, Rp Norris, E Middelberg, N Seymour, Lr Spitler, Bhc Emonts, Tmo Franzen, R Hunstead, Ht Intema, J Marvil, Qa Parker, Sk Sirothia, N Hurley-Walker, M Bell, G Bernardi, Jd Bowman, F Briggs, Rj Cappallo, Jr Callingham, Aa Deshpande, Ks Dwarakanath, B-Q For, Lj Greenhill, P Hancock, Bj Hazelton, L Hindson, M Johnston-Hollitt, Ad Kapinska, Dl Kaplan, E Lenc, Cj Lonsdale, B McKinley, Sr McWhirter, Da Mitchell, Mf Morales, E Morgan, J Morgan, D Oberoi, A Offringa, Sm Ord, T Prabu, P Procopio, N Udaya Shankar, Ks Srivani, L Staveley-Smith, R Subrahmanyan, Sj Tingay, Rb Wayth, Rl Webster, A Williams

Abstract:

Context.Infrared-faint radio sources (IFRS) are a class of radio-loud (RL) active galactic nuclei (AGN) at high redshifts (z ≥ 1.7) that are characterised by their relative infrared faintness, resulting in enormous radio-to-infrared flux density ratios of up to several thousand. Aims. Because of their optical and infrared faintness, it is very challenging to study IFRS at these wavelengths. However, IFRS are relatively bright in the radio regime with 1.4 GHz flux densities of a few to a few tens of mJy. Therefore, the radio regime is the most promising wavelength regime in which to constrain their nature. We aim to test the hypothesis that IFRS are young AGN, particularly GHz peaked-spectrum (GPS) and compact steep-spectrum (CSS) sources that have a low frequency turnover.

Methods. We use the rich radio data set available for the Australia Telescope Large Area Survey fields, covering the frequency range between 150 MHz and 34 GHz with up to 19 wavebands from different telescopes, and build radio spectral energy distributions (SEDs) for 34 IFRS. We then study the radio properties of this class of object with respect to turnover, spectral index, and behaviour towards higher frequencies. We also present the highest-frequency radio observations of an IFRS, observed with the Plateau de Bure Interferometer at 105 GHz, and model the multi-wavelength and radio-far-infrared SED of this source.

Results. We find IFRS usually follow single power laws down to observed frequencies of around 150 MHz. Mostly, the radio SEDs are steep (α < −0.8; 74+6-9%), but we also find ultra-steep SEDs (α < −1.3; 6+7-2%). In particular, IFRS show statistically significantly steeper radio SEDs than the broader RL AGN population. Our analysis reveals that the fractions of GPS and CSS sources in the population of IFRS are consistent with the fractions in the broader RL AGN population. We find that at least 18+8-5% of IFRS contain young AGN, although the fraction might be significantly higher as suggested by the steep SEDs and the compact morphology of IFRS. The detailed multi-wavelength SED modelling of one IFRS shows that it is different from ordinary AGN, although it is consistent with a composite starburst-AGN model with a star formation rate of 170 M⊙ yr-1.

Feedback-regulated star formation and escape of LyC photons from mini-haloes during reionisation

(2016)

Authors:

Taysun Kimm, Harley Katz, Martin Haehnelt, Joakim Rosdahl, Julien Devriendt, Adrianne Slyz

Changing physical conditions in star-forming galaxies between redshifts 0 < z < 4: [O iii]/H β evolution

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 460:3 (2016) 3002-3013

Authors:

F Cullen, M Cirasuolo, LJ Kewley, RJ McLure, JS Dunlop, RAA Bowler

The photometric properties of galaxies in the early Universe

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 460:3 (2016) 3170-3178

Authors:

Stephen M Wilkins, Yu Feng, Tiziana Di-Matteo, Rupert Croft, Elizabeth R Stanway, Andrew Bunker, Dacen Waters, Christopher Lovell