The Square Kilometre Array (SKA)

A framework for assessing the performance of pulsar search pipelines

Monthly Notices of the Royal Astronomical Society Oxford University Press 467:2 (2016) 1661-1677

Authors:

Elmarie van Heerden, Aris Karastergiou, Stephen J Roberts

Abstract:

In this paper, we present a framework for assessing the effect of non-stationary Gaussian noise and radio frequency interference (RFI) on the signal to noise ratio, the number of false positives detected per true positive and the sensitivity of standard pulsar search pipelines. The results highlight the necessity to develop algorithms that are able to identify and remove non-stationary variations from the data before RFI excision and searching is performed in order to limit false positive detections. The results also show that the spectrum whitening algorithms currently employed, severely affect the efficiency of pulsar search pipelines by reducing their sensitivity to long period pulsars.

Disc–jet quenching of the galactic black hole Swift J1753.5−0127

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 463:1 (2016) 628-634

Authors:

AP Rushton, AW Shaw, RP Fender, D Altamirano, P Gandhi, P Uttley, PA Charles, M Kolehmainen, GE Anderson, C Rumsey, DJ Titterington

Rapid Radio Flaring during an Anomalous Outburst of SS Cyg

(2016)

Authors:

KP Mooley, JCA Miller-Jones, RP Fender, GR Sivakoff, C Rumsey, Y Perrott, D Titterington, K Grainge, TD Russell, SH Carey, J Hickish, N Razavi-Ghods, A Scaife, P Scott, EO Waagen

HIPSR: A digital signal processor for the Parkes 21-cm multibeam receiver

Journal of Astronomical Instrumentation World Scientific Publishing 5:4 (2016)

Authors:

DC Price, L Staveley-Smith, M Bailes, E Carretti, A Jameson, Michael Jones, W van Straten, SW Schediwy

Abstract:

HIPSR (HI-Pulsar) is a digital signal processing system for the Parkes 21-cm Multibeam Receiver that provides larger instantaneous bandwidth, increased dynamic range, and more signal processing power than the previous systems in use at Parkes. The additional computational capacity enables finer spectral resolution in wideband HI observations and real-time detection of Fast Radio Bursts during pulsar surveys. HIPSR uses a heterogeneous architecture, consisting of FPGA-based signal processing boards connected via high-speed Ethernet to high performance compute nodes. Low-level signal processing is conducted on the FPGA-based boards, and more complex signal processing routines are conducted on the GPU-based compute nodes. The development of HIPSR was driven by two main science goals: to provide large bandwidth, high-resolution spectra suitable for 21-cm stacking and intensity mapping experiments; and to upgrade the Berkeley–Parkes–Swinburne Recorder (BPSR), the signal processing system used for the High Time Resolution Universe (HTRU) Survey and the Survey for Pulsars and Extragalactic Radio Bursts (SUPERB).

Geminga's puzzling pulsar wind nebula

(2016)

Authors:

B Posselt, GG Pavlov, PO Slane, R Romani, N Bucciantini, AM Bykov, O Kargaltsev, MC Weisskopf, C-Y Ng