Your search keyword '"Staley, T. D."' showing total 10 results

1. A radio jet from the optical and x-ray bright stellar tidal disruption flare ASASSN-14li

Author

van Velzen, S., Anderson, G. E., Stone, N. C., Fraser, M., Wevers, T., Metzger, B. D., Jonker, P. G., van der Horst, A. J., Staley, T. D., Mendez, A. J., Miller-Jones, J. C. A., Hodgkin, S. T., Campbell, H. C., and Fender, R. P.

Published

2016

2. BLACK HOLE PHYSICS: A radio jet from the optical and x-ray bright stellar tidal disruption flare ASASSN-14li

Author

van Velzen, S., Anderson, G. E., Stone, N. C., Fraser, M., Wevers, T., Metzger, B. D., Jonker, P. G., van der Horst, A. J., Staley, T. D., Mendez, A. J., Miller-Jones, J. C. A., Hodgkin, S. T., Campbell, H. C., and Fender, R. P.

Published

2016

3. LOFAR 150-MHz observations of SS 433 and W 50.

Author

Broderick, J. W., Fender, R. P., Miller-Jones, J. C. A., Trushkin, S. A., Stewart, A. J., Anderson, G. E., Staley, T. D., Blundell, K. M., Pietka, M., Markoff, S., Rowlinson, A., Swinbank, J. D., van der Horst, A. J., Bell, M. E., Breton, R. P., Carbone, D., Corbel, S., Eislöffel, J., Falcke, H., and Grießmeier, J.-M.

Subjects

ASTRONOMICAL observations, BINARY stars, X-ray astronomy, SUPERNOVA remnants, ACTINIC flux

Abstract

We present Low-Frequency Array (LOFAR) high-band data over the frequency range 115-189 MHz for the X-ray binary SS433, obtained in an observing campaign from 2013 February to 2014 May. Our results include a deep, wide-field map, allowing a detailed view of the surrounding supernova remnant W 50 at low radio frequencies, as well as a light curve for SS433 determined from shorter monitoring runs. The complex morphology of W50 is in excellent agreement with previously published higher frequency maps; we find additional evidence for a spectral turnover in the eastern wing, potentially due to foreground free-free absorption. Furthermore, SS433 is tentatively variable at 150 MHz, with both a debiased modulation index of 11 per cent and a x² probability of a flat light curve of 8.2 x 10-3. By comparing the LOFAR flux densities with contemporaneous observations carried out at 4800 MHz with the RATAN-600 telescope, we suggest that an observed ~0.5-1 Jy rise in the 150-MHz flux density may correspond to sustained flaring activity over a period of approximately 6 months at 4800 MHz. However, the increase is too large to be explained with a standard synchrotron bubble model. We also detect a wealth of structure along the nearby Galactic plane, including the most complete detection to date of the radio shell of the candidate supernova remnant G 38.7-1.4. This further demonstrates the potential of supernova remnant studies with the current generation of low-frequency radio telescopes. [ABSTRACT FROM AUTHOR]

Published

2018

4. The Arcminute Microkelvin Imager catalogue of gamma-ray burst afterglows at 15.7 GHz.

Author

Anderson, G. E., Staley, T. D., van der Horst, A. J., Fender, R. P., Rowlinson, A., Mooley, K. P., Broderick, J. W., Wijers, R. A. M. J., Rumsey, C., and Titterington, D. J.

Subjects

*GAMMA ray bursts, *GAMMA ray astronomy, *ASTRONOMICAL observations, *RADIO telescopes, *AFTERGLOW (Physics)

Abstract

We present the Arcminute Microkelvin Imager (AMI) Large Array catalogue of 139 gammaray bursts (GRBs). AMI observes at a central frequency of 15.7 GHz and is equipped with a fully automated rapid-response mode, which enables the telescope to respond to high-energy transients detected by Swift. On receiving a transient alert, AMI can be on-target within 2 min, scheduling later start times if the source is below the horizon. Further AMI observations are manually scheduled for several days following the trigger. The AMI GRB programme probes the early-time (<1 d) radio properties of GRBs, and has obtained some of the earliest radio detections (GRB 130427A at 0.36 and GRB 130907A at 0.51 d post-burst). As all Swift GRBs visible to AMI are observed, this catalogue provides the first representative sample of GRB radio properties, unbiased by multiwavelength selection criteria.We report the detection of six GRB radio afterglows that were not previously detected by other radio telescopes, increasing the rate of radio detections by 50 per cent over an 18-month period. The AMI catalogue implies a Swift GRB radio detection rate of ≳15 per cent, down to∼0.2mJy beam-1. However, scaling this by the fraction of GRBs AMI would have detected in the Chandra & Frail sample (all radio-observed GRBs between 1997 and 2011), it is possible ∼44-56 per cent of Swift GRBs are radio bright, down to ∼0.1-0.15 mJy beam-1. This increase from the Chandra & Frail rate (∼30 per cent) is likely due to the AMI rapid-response mode, which allows observations to begin while the reverse-shock is contributing to the radio afterglow. [ABSTRACT FROM AUTHOR]

Published

2018

5. On the use of variability time-scales as an early classifier of radio transients and variables.

Author

Pietka, M., Staley, T. D., Pretorius, M. L., and Fender, R. P.

Subjects

*LIGHT curves, *ASTRONOMICAL spectroscopy, *SYNCHROTRON radiation, *SUPERMASSIVE black holes, *LUMINOSITY

Abstract

We have shown previously that a broad correlation between the peak radio luminosity and the variability time-scales, approximately L ∝ τ 5, exists for variable synchrotron emitting sources and that different classes of astrophysical sources occupy different regions of luminosity and time-scale space. Based on those results, we investigate whether the most basic information available for a newly discovered radio variable or transient - their rise and/or decline rate - can be used to set initial constraints on the class of events from which they originate. We have analysed a sample of ≈800 synchrotron flares, selected from light curves of ≈90 sources observed at 5-8 GHz, representing a wide range of astrophysical phenomena, from flare stars to supermassive black holes. Selection of outbursts from the noisy radio light curves has been done automatically in order to ensure reproducibility of results. The distribution of rise/decline rates for the selected flares is modelled as a Gaussian probability distribution for each class of object, and further convolved with estimated areal density of that class in order to correct for the strong bias in our sample. We show in this way that comparing the measured variability time-scale of a radio transient/variable of unknown origin can provide an early, albeit approximate, classification of the object, and could form part of a suite of measurements used to provide early categorization of such events. Finally, we also discuss the effect scintillating sources will have on our ability to classify events based on their variability time-scales. [ABSTRACT FROM AUTHOR]

Published

2017

6. The peculiar mass-loss history of SN 2014C as revealed through AMI radio observations.

Author

Anderson, G. E., Horesh, A., Mooley, K. P., Rushton, A. P., Fender, R. P., Staley, T. D., Argo, M. K., Beswick, R. J., Hancock, P. J., Pérez-Torres, M. A., Perrott, Y. C., Plotkin, R. M., Pretorius, M. L., Rumsey, C., and Titterington, D. J.

Subjects

SUPERNOVAE, CATACLYSMIC variable stars, GALACTIC X-ray sources, SUPERNOVA remnants, PULSARS

Abstract

We present a radio light curve of supernova (SN) 2014C taken with the Arcminute Microkelvin Imager (AMI) Large Array at 15.7 GHz. Optical observations presented by Milisavljevic et al. demonstrated that SN 2014C metamorphosed from a stripped-envelope Type Ib SN into a strongly interacting Type IIn SN within 1 yr. The AMI light curve clearly shows two distinct radio peaks, the second being a factor of 4 times more luminous than the first peak. This double bump morphology indicates two distinct phases of mass-loss from the progenitor star with the transition between density regimes occurring at 100-200 d. This reinforces the interpretation that SN 2014C exploded in a low-density region before encountering a dense hydrogen-rich shell of circumstellar material that was likely ejected by the progenitor prior to the explosion. The AMI flux measurements of the first light-curve bump are the only reported observations taken within ~50 to ~125 d post-explosion, before the blast-wave encountered the hydrogen shell. Simplistic synchrotron self-absorption and free-free absorption modelling suggest that some physical properties of SN 2014C are consistent with the properties of other Type Ibc and IIn SNe. However, our single frequency data does not allow us to distinguish between these two models, which implies that they are likely too simplistic to describe the complex environment surrounding this event. Lastly, we present the precise radio location of SN 2014C obtained with the electronic Multi-Element Remotely Linked Interferometer Network, which will be useful for future very long baseline interferometry observations of the SN. [ABSTRACT FROM AUTHOR]

Published

2017

7. Low-radio-frequency eclipses of the redback pulsar J2215+5135 observed in the image plane with LOFAR.

Author

Broderick, J. W., Fender, R. P., Breton, R. P., Stewart, A. J., Rowlinson, A., Swinbank, J. D., Hessels, J. W. T., Staley, T. D., van der Horst, A. J., Bell, M. E., Carbone, D., Cendes, Y., Corbel, S., Eislöffel, J., Falcke, H., Grießmeier, J.-M., Hassall, T. E., Jonker, P., Kramer, M., and Kuniyoshi, M.

Subjects

RADIO frequency, ASTRONOMICAL observations, PULSARS, BEAMFORMING, IMAGING systems in astronomy

Abstract

The eclipses of certain types of binary millisecond pulsars (i.e. 'black widows' and 'redbacks') are often studied using high-time-resolution, 'beamformed' radio observations. However, they may also be detected in images generated from interferometric data. As part of a larger imaging project to characterize the variable and transient sky at radio frequencies <200 MHz, we have blindly detected the redback system PSR J2215+5135 as a variable source of interest with the Low-Frequency Array (LOFAR). Using observations with cadences of two weeks - six months, we find preliminary evidence that the eclipse duration is frequency dependent (∝ν-0.4), such that the pulsar is eclipsed for longer at lower frequencies, in broad agreement with beamformed studies of other similar sources. Furthermore, the detection of the eclipses in imaging data suggests an eclipsing medium that absorbs the pulsed emission, rather than scattering it. Our study is also a demonstration of the prospects of finding pulsars in wide-field imaging surveys with the current generation of low-frequency radio telescopes. [ABSTRACT FROM AUTHOR]

Published

2016

8. The radio/X-ray correlation in Swift J1753.5-0127.

Author

Kolehmainen, M., Fender, R., Jonker, P. G., Miller-Jones, J. C. A., Homan, J., Anderson, G. E., Staley, T. D., Rumsey, C., Titterington, D. J., Broderick, J. W., Sivakoff, G. R., and Deller, A.

Subjects

X-ray binaries, STATISTICAL correlation, LUMINOSITY, SOLAR radio emission, ABSORPTION, ATOMIC transitions

Abstract

Great effort has gone into trying to explain the two observed radio/X-ray correlation tracks seen in the low/hard state of black hole X-ray binaries in recent years. The original, 'standard' correlation of the form LR ∝ LbX, where b = 0.7 ± 0.1, is paired with a separate, lower correlation track with a steeper slope of ∼ 1-1.4, at least at high luminosities. These outlier sources seem to show fainter radio emission than expected for a given X-ray luminosity, thus acquiring the term 'radio-quiet'. While most sources seem to maintain their intrinsic correlation slopes over decades in luminosity, a growing sample of sources have recently been reported to move from one correlation to the other. We present preliminary results from a coordinated radio/X-ray monitoring campaign of the radio-quiet black hole binary Swift J1753.5-0127, spanning nearly two years in time. Our observations add lower-luminosity coverage to an existing sample of observations, and we observe the radio-quiet track to proceed horizontally towards the standard correlation as the X-ray luminosity slowly starts to decrease. The source stays on the transition track for ∼ 60 days, during which its X-ray luminosity is observed to drop by more than an order of magnitude while its radio luminosity stays constant. Time-averaged X-ray energy spectra show very little change during this phase, leaving no obvious parameters to explain the observed transition behaviour. (© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) [ABSTRACT FROM AUTHOR]

Published

2016

9. LOFAR MSSS: detection of a low-frequency radio transient in 400 h of monitoring of the North Celestial Pole.

Author

Stewart, A. J., Fender, R. P., Broderick, J. W., Hassall, T. E., Muñoz-Darias, T., Rowlinson, A., Swinbank, J. D., Staley, T. D., Molenaar, G. J., Scheers, B., Grobler, T. L., Pietka, M., Heald, G., McKean, J. P., Bell, M. E., Bonafede, A., Breton, R. P., Carbone, D., Cendes, Y., and Clarke, A. O.

Subjects

RADIO astronomy, ASTROPHYSICS, FLUX (Energy), INTERFEROMETERS, IMAGE processing

Abstract

We present the results of a four-month campaign searching for low-frequency radio transients near the North Celestial Pole with the Low-Frequency Array (LOFAR), as part of the Multifrequency Snapshot Sky Survey (MSSS). The data were recorded between 2011 December and 2012 April and comprised 2149 11-min snapshots, each covering 175 deg². We have found one convincing candidate astrophysical transient, with a duration of a few minutes and a flux density at 60 MHz of 15-25 Jy. The transient does not repeat and has no obvious optical or high-energy counterpart, as a result of which its nature is unclear. The detection of this event implies a transient rate at 60 MHz of 3.9+14.7 ? 10-4 d-1 deg-2, and a transient surface density of 1.5 ? 10-3.7 ? 10-4 d-1 deg-2, and a transient surface density of 1.5 ? 10-5 deg-2, at a 7.9-Jy limiting flux density and ~10-min time-scale. The campaign data were also searched for transients at a range of other time-scales, from 0.5 to 297 min, which allowed us to place a range of limits on transient rates at 60 MHz as a function of observation duration. [ABSTRACT FROM AUTHOR]

Published

2016

10. Automated rapid follow-up of Swift gamma-ray burst alerts at 15 GHz with the AMI Large Array.

Author

Staley, T. D., Titterington, D. J., Fender, R. P., Swinbank, J. D., van der Horst, A. J., Rowlinson, A., Scaife, A. M. M., Grainge, K. J. B., and Pooley, G. G.

Subjects

*GAMMA ray bursts, *ASTRONOMICAL observations, *CONSTRAINTS (Physics), *SOFTWARE development tools, *AUTOMATION

Abstract

We present 15-GHz follow-up radio observations of 11 Swift gamma-ray burst (GRB) sources, obtained with the Arcminute Microkelvin Imager Large Array (AMI-LA). The initial follow-up observation for each source was made in a fully automated fashion; as a result four observations were initiated within 5 min of the GRB alert time stamp. These observations provide the first millijansky-level constraints on prolonged radio emission from GRBs within the first hour post-burst. While no radio emission within the first six hours after the GRB is detected in this preliminary analysis, radio afterglow is detected from one of the GRBs (GRB 120326A) on a time-scale of days. The observations were made as part of an ongoing programme to use AMI-LA as a systematic follow-up tool for transients at radio frequencies. In addition to the preliminary results, we explain how we have created an easily extensible automated follow-up system, describing new software tools developed for astronomical transient alert distribution, automatic requesting of target-of-opportunity observations and robotic control of the observatory. [ABSTRACT FROM AUTHOR]

Published

2013