Breakthrough Listen

The Stripe 82 1–2 GHz Very Large Array Snapshot Survey: host galaxy properties and accretion rates of radio galaxies

Monthly Notices of the Royal Astronomical Society Oxford University Press 480:1 (2018) 358-370

Authors:

IH Whittam, M Prescott, K McAlpine, Matthew Jarvis, I Heywood

Abstract:

A sample of 1161 radio galaxies with 0.01 <z< 0.7 and 1021 < L1.4 GHz/W ˜Hz−1 < 1027 is selected from the Stripe 82 1–2 GHz Karl G. Jansky Very Large Array Snapshot Survey, which covers 100 sq. deg. and has a 1σ noise level of 88 μJy beam−1. Optical spectra are used to classify these sources as high excitation and low excitation radio galaxies (HERGs and LERGs), resulting in 60 HERGs, 149 LERGs, and 600 ‘probable LERGs’. The host galaxies of the LERGs have older stellar populations than those of the HERGs, in agreement with previous results in the literature. We find that the HERGs tend to have higher Eddington-scaled accretion rates than the LERGs but that there is some overlap between the two distributions. We show that the properties of the host galaxies vary continuously with accretion rate, with the most slowly accreting sources having the oldest stellar populations, consistent with the idea that these sources lack a supply of cold gas. We find that 84 per cent of our sample releases more than 10 per cent of their accretion power in their jets, showing that mechanical active galactic nucleus (AGN) feedback is significantly underestimated in many hydrodynamical simulations. There is a scatter of ∼2 dex in the fraction of the accreted AGN power deposited back into the interstellar medium in mechanical form, showing that the assumption in many simulations that there is a direct scaling between accretion rate and radio-mode feedback does not necessarily hold. We also find that mechanical feedback is significant for many of the HERGs in our sample as well as the LERGs.

High-resolution observations of low-luminosity gigahertz-peaked spectrum and compact steep-spectrum sources

MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY 477:1 (2018) 578-592

Authors:

JD Collier, SJ Tingay, JR Callingham, RP Norris, MD Filipovic, TJ Galvin, MT Huynh, HT Intema, J Marvil, AN O'Brien, Q Roper, S Sirothia, NFH Tothill, ME Bell, B-Q For, BM Gaensler, PJ Hancock, L Hindson, N Hurley-Walker, M Johnston-Hollitt, AD Kapinska, E Lenc, J Morgan, P Procopio, L Staveley-Smith, RB Wayth, C Wu, Q Zheng, I Heywood, A Popping

A pilot survey for transients and variables with the Australian Square Kilometre Array Pathfinder

Monthly Notices of the Royal Astronomical Society Oxford University Press 478:2 (2018) 1784-1794

Authors:

S Bhandari, KW Bannister, T Murphy, M Bell, W Raja, J Marvil, PJ Hancock, M Whiting, CM Flynn, JD Collier, DL Kaplan, James Allison, C Anderson, I Heywood, A Hotan, R Hunstead, K Lee-Waddell, JP Madrid, D McConnell, A Popping, J Rhee, E Sadler, MA Voronkov

Abstract:

We present a pilot search for variable and transient sources at 1.4 GHz with the Australian Square Kilometre Array Pathfinder (ASKAP). The search was performed in a 30 deg2 area centred on the NGC 7232 galaxy group over eight epochs and observed with a near-daily cadence. The search yielded nine potential variable sources, rejecting the null hypothesis that the flux densities of these sources do not change with 99.9 per cent confidence. These nine sources displayed flux density variations with modulation indices m ≥ 0.1 above ourflux density limit of ∼1.5 mJy. They are identified to be compact active galactic nucleus (AGN)/quasars or galaxies hosting an AGN, whose variability is consistent with refractive interstellar scintillation. We also detect a highly variable source with modulation index m > 0.5 over atime intervalof a decade between the Sydney University Molonglo Sky Survey (SUMSS) and our latest ASKAP observations. We find the source to be consistent with the properties of long-term variability of a quasar. No transients were detected on time-scales of days and we place an upper limit ρt < 0.01 deg−2 with 95percent confidence for non-detections on near-daily time-scales. The future VAST-Wide survey with 36-ASKAP dishes will probe the transient phase space with similar cadence to our pilot survey, but better sensitivity, and will detect and monitor rarer brighter events.

ThunderKAT: The MeerKAT Large Survey Project for Image-Plane Radio Transients

Sissa Medialab Srl (2018) 013

Authors:

Patrick Alan Woudt, Rob Fender, Stephane Corbel, Mickaël Coriat, Frédéric Daigne, Heino Falcke, Julien Girard, Ian Heywood, Assaf Horesh, Jasper Horrell, Peter G Jonker, Tana Joseph, Atish Kamble, Christian Knigge, Elmar Körding, Marissa Kotze, Chryssa Kouveliotou, Christine Lynch, Tom Maccarone, Pieter Meintjes, Simone Migliari, Tara Murphy, Takahiro Nagayama, Gijs Nelemans, George Nicholson, Tim O’Brien, Alida Oodendaal, Nadeem Oozeer, Julian Osborne, Miguel Perez-Torres, Simon Ratcliffe, Valério ARM Ribeiro, Evert Rol, Anthony Rushton, Anna Scaife, Matthew Schurch, Greg Sivakoff, Tim Staley, Danny Steeghs, Ian Stewart, John D Swinbank, Susanna Vergani, Brian Warner, Klaas Wiersema, Richard Armstrong, Paul Groot, Vanessa McBride, James CA Miller-Jones, Kunal Mooley, Ben Stappers, Ralph AMJ Wijers, Michael Bietenholz, Sarah Blyth, Markus Böttcher, David Buckley, Phil Charles, Laura Chomiuk, Deanne Coppejans, WJG de Blok, Kurt van der Heyden, Alexander van der Horst, Brian van Soelen

Long-term radio and X-ray evolution of the tidal disruption event ASASSN-14li

Monthly Notices of the Royal Astronomical Society Oxford University Press 475:3 (2018) 4011-4019

Authors:

JS Bright, Robert Fender, K Mooley, YC Perrott, SV Velzen, S Carey, J Hickish, N Razavi-Ghods, D Titterington, P Scott, K Grainge, A Scaife, T Cantwell, C Rumsey

Abstract:

We report on late time radio and X-ray observations of the tidal disruption event candidate ASASSN-14li, covering the first 1000 days of the decay phase. For the first $\sim200$ days the radio and X-ray emission fade in concert. This phase is better fit by an exponential decay at X-ray wavelengths, while the radio emission is well described by either an exponential or the canonical $t^{-5/3}$ decay assumed for tidal disruption events. The correlation between radio and X-ray emission during this period can be fit as $L_{R}\propto L_{X}^{1.9\pm0.2}$. After 400 days the radio emission at $15.5\,\textrm{GHz}$ has reached a plateau level of $244\pm8\,\mu\textrm{Jy}$ which it maintains for at least the next 600 days, while the X-ray emission continues to fade exponentially. This steady level of radio emission is likely due to relic radio lobes from the weak AGN-like activity implied by historical radio observations. We note that while most existing models are based upon the evolution of ejecta which are decoupled from the central black hole, the radio : X-ray correlation during the declining phase is also consistent with core jet emission coupled to a radiatively efficient accretion flow.