Pulsars, transients and relativistic astrophysics

Phase-resolved Faraday rotation in pulsars

Monthly Notices of the Royal Astronomical Society 396:3 (2009) 1559-1572

Authors:

A Noutsos, A Karastergiou, M Kramer, S Johnston, BW Stappers

Abstract:

We have detected significant rotation measure (RM) variations for nine bright pulsars, as a function of pulse longitude. An additional sample of 10 pulsars showed a rather constant RM with phase, yet a small degree of RM fluctuation is visible in at least three of those cases. In all cases, we have found that the rotation of the polarization position angle across our 1.4 GHz observing band is consistent with the λ2 law of interstellar Faraday rotation. We provide for the first time convincing evidence that RM variations across the pulse are largely due to interstellar scattering, although we cannot exclude that magnetospheric Faraday rotation may still have a minor contribution; alternative explanations of this phenomenon, like erroneous de-dispersion and the presence of non-orthogonal polarization modes, are excluded. If the observed, phase-resolved RM variations are common amongst pulsars, then many of the previously measured pulsar RMs may be in error by as much as a few tens of rad m-2. © 2009 RAS.

SKA HI end2end simulation

Proceedings of Science 132 (2009) 67-73

Authors:

HR Klockner, R Auld, I Heywood, D Obreschkow, F Levrier, S Rawlings

Abstract:

The current status of the HI simulation efforts is presented, in which a self consistent simulation path is described and basic equations to calculate array sensitivities are given. There is a summary of the SKA Design Study (SKADS) sky simulation and a method for implementing it into the array simulator is presented. A short overview of HI sensitivity requirements is discussed and expected results for a simulated HI survey are presented.

The LOFAR Transients Key Project

PoSMQW 6 (2009) 104-104

Authors:

R Fender, R Braun, B Stappers, R Wijers, M Wise, T Coenen, H Falcke, J-M Griessmeier, MV Haarlem, P Jonker, C Law, S Markoff, J Masters, J Miller-Jones, R Osten, B Scheers, H Spreeuw, J Swinbank, C Vogt, R Wijnands, P Zarka

Abstract:

LOFAR, the Low Frequency Array, is a new radio telescope under construction in the Netherlands, designed to operate between 30 and 240 MHz. The Transients Key Project is one of the four Key Science Projects which comprise the core LOFAR science case. The remit of the Transients Key Project is to study variable and transient radio sources detected by LOFAR, on timescales from milliseconds to years. This will be achieved via both regular snapshot monitoring of historical and newly-discovered radio variables and, most radically, the development of a `Radio Sky Monitor' which will survey a large fraction of the northern sky on a daily basis.

The complex polarization angles of radio pulsars: Orthogonal jumps and interstellar scattering

Monthly Notices of the Royal Astronomical Society: Letters 392:1 (2009)

Abstract:

Despite some success in explaining the observed polarization angle swing of radio pulsars within the geometric rotating vector model, many deviations from the expected S-like swing are observed. In this Letter, we provide a simple and credible explanation of these variations based on a combination of the rotating vector model, intrinsic orthogonally polarized propagation modes within the pulsar magnetosphere and the effects of interstellar scattering. We use simulations to explore the range of phenomena that may arise from this combination, and briefly discuss the possibilities of determining the parameters of scattering in an effort to understand the intrinsic pulsar polarization. © 2008 The Author. Journal compilation © 2008 RAS.

The disc-jet coupling in the neutron star X-ray binary Aquila X-1

Monthly Notices of the Royal Astronomical Society 400:4 (2009) 2111-2121

Authors:

V Tudose, RP Fender, M Linares, D Maitra, M Van Der Klis

Abstract:

We study the accretionejection processes (i.e. discjet coupling) in the neutron star X-ray binary Aquila X-1 via a multiwavelength approach. We use in the radio band the publicly available Very Large Array archive containing observations of the object between 1986 and 2005, in the X-ray band the archival Rossi X-ray Timing Explorer data (Proportional Counter Array and High Energy X-ray Timing Experiment) between 1997 and 2008, and in optical (R band) observations with the Small and Moderate Aperture Research Telescope System recorded between 1998 and 2007. In the combined data set, we find three outbursts for which quasi-simultaneous radio, optical (R band) and X-ray data exist and focus on them to some extent. We provide evidence that the discjet coupling in Aquila X-1 is similar to what has been observed in black hole X-ray binaries, at least from the point of view of the behaviour in the hardness-intensity diagrams (the hysteresis effect included), when the phenomenology of the jet is taken into account. Although based on a very small number of observations, a radioX-ray correlation seems to exist for this system, with a slope of α = 0.40 ± 0.07 (Fradio ∝ F αX), which is different than the slope of α = 1.40 ± 0.25 found for another atoll source, 4U 1728-34, but interestingly enough is relatively close to the values obtained for several black hole X-ray binaries. No significant correlation is found between the radio and optical (R-band) emissions. We also report a significant drop in the radio flux from Aquila X-1 above an X-ray flux of ∼5 × 10-9 erg cm -2 s-1. This behaviour, also reported in the neutron star X-ray binary 4U 1728-34, may be analogous to the suppression of radio emission in black hole X-ray binaries in bright, soft X-ray states. It suggests that from this point of view neutron star X-ray binaries can mimic the behaviour of black hole X-ray binaries in suppressing the jet in softdisc-dominated X-ray states. © 2009 RAS.