Observational evidence that positive and negative AGN feedback depends on galaxy mass and jet power

Monthly Notices of the Royal Astronomical Society Oxford University Press 471:1 (2017) 28-58

Authors:

E Kalfountzou, JA Stevens, Matthew Jarvis, MJ Hardcastle, D Wilner, M Elvis, MJ Page, M Trichas, DJB Smith

Abstract:

Several studies support the existence of a link between the active galactic nucleus (AGN) and star formation activity. Radio jets have been argued to be an ideal mechanism for direct interaction between the AGN and the host galaxy. A drawback of previous surveys of AGN is that they are fundamentally limited by the degeneracy between redshift and luminosity in flux-density limited samples. To overcome this limitation, we present far-infrared Herschel observations of 74 radio-loud quasars (RLQs), 72 radio-quiet quasars (RQQs) and 27 radio galaxies (RGs), selected at 0.9 < z < 1.1, which span over two decades in optical luminosity. By decoupling luminosity from evolutionary effects, we investigate how the star formation rate (SFR) depends on AGN luminosity, radio-loudness and orientation. We find that (1) the SFR shows a weak correlation with the bolometric luminosity for all AGN sub-samples, (2) the RLQs show an SFR excess of about a factor of 1.4 compared to the RQQs, matched in terms of black hole mass and bolometric luminosity, suggesting that either positive radio-jet feedback or radio AGN triggering is linked to star formation triggering, and (3) RGs have lower SFRs by a factor of 2.5 than the RLQ sub-sample with the same BH mass and bolometric luminosity. We suggest that there is some jet power threshold at which radio-jet feedback switches from enhancing star formation (by compressing gas) to suppressing it (by ejecting gas). This threshold depends on both galaxy mass and jet power.

A tale of two transients: GW170104 and GRB170105A

(2017)

Authors:

V Bhalerao, MM Kasliwal, D Bhattacharya, A Corsi, E Aarthy, SM Adams, N Blagorodnova, T Cantwell, SB Cenko, R Fender, D Frail, R Itoh, J Jencson, N Kawai, AKH Kong, T Kupfer, A Kutyrev, J Mao, S Mate, NPS Mithun, K Mooley, DA Perley, YC Perrott, RM Quimby, AR Rao, LP Singer, V Sharma, DJ Titterington, E Troja, SV Vadawale, A Vibhute, H Vedantham, S Veilleux

ALFABURST: A realtime fast radio burst monitor for the Arecibo telescope

The Fourteenth Marcel Grossmann Meeting World Scientific Publishing Co (2017) 2872-2876

Authors:

Jayanth Chennamangalam, Aris Karastergiou, David MacMahon, Wesley G Armour, Jeff Cobb, Duncan Lorimer, Kaustubh Rajwade, Andrew Siemion, Dan Werthimer, Christopher Williams

Abstract:

Fast radio bursts (FRBs) constitute an emerging class of fast radio transient whose origin continues to be a mystery. Realizing the importance of increasing coverage of the search parameter space, we have designed, built, and deployed a realtime monitor for FRBs at the 305-m Arecibo radio telescope. Named `ALFABURST', it is a commensal instrument that is triggered whenever the 1.4 GHz seven-beam Arecibo L-Band Feed Array (ALFA) receiver commences operation. The ongoing commensal survey we are conducting using ALFABURST has an instantaneous field of view of 0.02 sq. deg. within the FWHM of the beams, with the realtime software configurable to use up to 300 MHz of bandwidth. We search for FRBs with dispersion measure up to 2560 cm^-3 pc and pulse widthsranging from 0.128 ms to 16.384 ms. Commissioning observations performed over the past few months have demonstrated the capability of the instrument in detecting single pulses from known pulsars. In this paper, I describe the instrument and the associated survey.

A Multi-telescope Campaign on FRB 121102: Implications for the FRB Population

(2017)

Authors:

CJ Law, MW Abruzzo, CG Bassa, GC Bower, S Burke-Spolaor, BJ Butler, T Cantwell, SH Carey, S Chatterjee, JM Cordes, P Demorest, J Dowell, R Fender, K Gourdji, K Grainge, JWT Hessels, J Hickish, VM Kaspi, TJW Lazio, MA McLaughlin, D Michilli, K Mooley, YC Perrott, SM Ransom, N Razavi-Ghods, M Rupen, A Scaife, P Scott, P Scholz, A Seymour, LG Spitler, K Stovall, SP Tendulkar, D Titterington, RS Wharton, PKG Williams

Galaxy And Mass Assembly (GAMA): The environments of high- and low-excitation radio galaxies

Monthly Notices of the Royal Astronomical Society Oxford University Press 469:4 (2017) 4584-4599

Authors:

JHY Ching, SM Croom, EM Sadler, ASG Robotham, S Brough, IK Baldry, J Bland-Hawthorn, M Colless, SP Driver, BW Holwerda, AM Hopkins, Matthew Jarvis, HM Johnston, LS Kelvin, J Liske, J Loveday, P Norberg, MB Pracy, O Steele, D Thomas, L Wang

Abstract:

We study the environments of low- and high- excitation radio galaxies (LERGs and HERGs respectively) in the redshift range $0.01 < z < 0.4$, using a sample of 399 radio galaxies and environmental measurements from the Galaxy And Mass Assembly (GAMA) survey. In our analysis we use the fifth nearest neighbour density ($\Sigma_{5}$) and the GAMA galaxy groups catalogue (G3Cv6) and construct control samples of galaxies matched in {\update stellar mass and colour} to the radio-detected sample. We find that LERGs and HERGs exist in different environments and that this difference is dependent on radio luminosity. High-luminosity LERGs ($L_{\rm NVSS} \gtrsim 10^{24}$ W Hz$^{-1}$) lie in much denser environments than a matched radio-quiet control sample (about three times as dense, as measured by $\Sigma_{5}$), and are more likely to be members of galaxy groups ($82^{+5}_{-7}$ percent of LERGs are in GAMA groups, compared to $58^{+3}_{-3}$ percent of the control sample). In contrast, the environments of the HERGs and lower luminosity LERGs are indistinguishable from that of a matched control sample. Our results imply that high-luminosity LERGs lie in more massive haloes than non-radio galaxies of similar stellar mass and colour, in agreement with earlier studies (Wake et al. 2008; Donoso et al. 2010). When we control for the preference of LERGs to be found in groups, both high- and low- luminosity LERGs are found in higher-mass haloes ($\sim 0.2$ dex; at least 97 percent significant) than the non-radio control sample.