MeerKAT

Discovery of H I gas in a young radio galaxy at z = 0.44 using the Australian Square Kilometre Array Pathfinder

Monthly Notices of the Royal Astronomical Society Oxford University Press 453:2 (2015) 1249-1267

Authors:

James Allison, EM Sadler, VA Moss, MT Whiting, RW Hunstead, MB Pracy, SJ Curran, SM Croom, M Glowacki, R Morganti, SS Shabala, MA Zwaan, G Allen, SW Amy, P Axtens, L Ball, KW Bannister, S Barker, ME Bell, DC-J Bock, R Bolton, M Bowen, B Boyle, R Braun, S Broadhurst, D Brodrick, M Brothers, A Brown, JD Bunton, C Cantrall, J Chapman, W Cheng, AP Chippendale, Y Chung, F Cooray, T Cornwell, D Deboer, P Diamond, PG Edwards, R Ekers, I Feain, RH Ferris, R Forsyth, R Gough, A Grancea, N Gupta, JC Guzman, G Hampson, L Harvey-Smith, C Haskins

Abstract:

We report the discovery of a new 21-cm H I absorption system using commissioning data from the Boolardy Engineering Test Array of the Australian Square Kilometre Array Pathfinder (ASKAP). Using the 711.5–1015.5 MHz band of ASKAP we were able to conduct a blind search for the 21-cm line in a continuous redshift range between z = 0.4 and 1.0, which has, until now, remained largely unexplored. The absorption line is detected at z = 0.44 towards the GHz-peaked spectrum radio source PKS B1740−517 and demonstrates ASKAP's excellent capability for performing a future wide-field survey for H I absorption at these redshifts. Optical spectroscopy and imaging using the Gemini-South telescope indicates that the H I gas is intrinsic to the host galaxy of the radio source. The narrow [O III] emission lines show clear double-peaked structure, indicating either large-scale outflow or rotation of the ionized gas. Archival data from the XMM–Newton satellite exhibit an absorbed X-ray spectrum that is consistent with a high column density obscuring medium around the active galactic nucleus. The H I absorption profile is complex, with four distinct components ranging in width from 5 to 300 km s−1 and fractional depths from 0.2 to 20 per cent. In addition to systemic H I gas, in a circumnuclear disc or ring structure aligned with the radio jet, we find evidence for a possible broad outflow of neutral gas moving at a radial velocity of v ∼ 300 km s−1. We infer that the expanding young radio source (tage ≈ 2500 yr) is cocooned within a dense medium and may be driving circumnuclear neutral gas in an outflow of ∼1 M⊙ yr−1.

Radio polarimetry as a probe of unresolved jets: the 2013 outburst of XTE J1908+094

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 451:4 (2015) 3975-3985

Authors:

PA Curran, JCA Miller-Jones, AP Rushton, DD Pawar, GE Anderson, D Altamirano, HA Krimm, JW Broderick, TM Belloni, RP Fender, EG Körding, D Maitra, S Markoff, S Migliari, C Rumsey, MP Rupen, DM Russell, TD Russell, CL Sarazin, GR Sivakoff, R Soria, AJ Tetarenko, D Titterington, V Tudose

LINKING STELLAR CORONAL ACTIVITY AND ROTATION AT 500 MYR: A DEEP CHANDRA OBSERVATION OF M37

The Astrophysical Journal American Astronomical Society 809:2 (2015) 161

Authors:

Alejandro Núñez, Marcel A Agüeros, Kevin R Covey, Joel D Hartman, Adam L Kraus, Emily C Bowsher, Stephanie T Douglas, Mercedes López-Morales, David A Pooley, Bettina Posselt, Steven H Saar, Andrew A West

LOFAR discovery of a quiet emission mode in PSR B0823+26

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 451:3 (2015) 2493-2506

Authors:

C Sobey, NJ Young, JWT Hessels, P Weltevrede, A Noutsos, BW Stappers, M Kramer, C Bassa, AG Lyne, VI Kondratiev, TE Hassall, EF Keane, AV Bilous, RP Breton, J-M Grießmeier, A Karastergiou, M Pilia, M Serylak, S ter Veen, J van Leeuwen, A Alexov, J Anderson, A Asgekar, IM Avruch, ME Bell, MJ Bentum, G Bernardi, P Best, L Bîrzan, A Bonafede, F Breitling, J Broderick, M Brüggen, A Corstanje, D Carbone, E de Geus, M de Vos, A van Duin, S Duscha, J Eislöffel, H Falcke, RA Fallows, R Fender, C Ferrari, W Frieswijk, MA Garrett, AW Gunst, JP Hamaker, G Heald, M Hoeft, J Hörandel, E Jütte, G Kuper, P Maat, G Mann, S Markoff, R McFadden, D McKay-Bukowski, JP McKean, DD Mulcahy, H Munk, A Nelles, MJ Norden, E Orrù, H Paas, M Pandey-Pommier, VN Pandey, G Pietka, R Pizzo, AG Polatidis, D Rafferty, A Renting, H Röttgering, A Rowlinson, AMM Scaife, D Schwarz, J Sluman, O Smirnov, M Steinmetz, A Stewart, J Swinbank, M Tagger, Y Tang, C Tasse, S Thoudam, C Toribio, R Vermeulen, C Vocks, RJ van Weeren, RAMJ Wijers, MW Wise, O Wucknitz, S Yatawatta, P Zarka

The evolving relation between star-formation rate and stellar mass in the VIDEO Survey since z=3

Monthly Notices of the Royal Astronomical Society Oxford University Press 453:3 (2015) 2540-2557

Authors:

Russell Johnston, Mattia Vaccari, Matthew Jarvis, Matthew Smith, Elodie Giovannoli, Boris Häußler, Matthew Prescott

Abstract:

We investigate the star-formation rate (SFR) and stellar mass ($M_*$) relation of a star-forming (SF) galaxy sample in the XMM-LSS field to $z\sim 3.0$ using the near-infrared data from the VISTA Deep Extragalactic Observations (VIDEO) survey. Combining VIDEO with broad-band photometry, we use the SED fitting algorithm CIGALE to derive SFRs and $M_*$ and have adapted it to account for the full photometric redshift PDF uncertainty. Applying a SF selection using the D4000 index, we find evidence for strong evolution in the normalisation of the SFR-$M_*$ relation out to $z\sim 3$ and a roughly constant slope of (SFR $\propto M_*^{\alpha}$) $\alpha=0.69\pm0.02$ to $z\sim 1.7$. We find this increases close to unity toward $z\sim2.65$. Alternatively, if we apply a colour selection, we find a distinct turnover in the SFR-$M_*$ relation between $0.7\lesssim z\lesssim2.0$ at the high mass end, and suggest that this is due to an increased contamination from passive galaxies. We find evolution of the specific SFR $\propto(1+z)^{2.60}$ at $\log(M_*)\sim$10.5, out to $z\lesssim2.4$ with an observed flattening beyond $z\sim$ 2 with increased stellar mass. Comparing to a range of simulations we find the analytical scaling relation approaches, that invoke an equilibrium model, a good fit to our data, suggesting that a continual smooth accretion regulated by continual outflows may be a key driver in the overall growth of SFGs.