The Square Kilometre Array (SKA)

A Unified Model for Black Hole X-Ray Binary Jets?

Astrophysics and Space Science Springer Nature 300:1-3 (2005) 1-13

Authors:

Rob Fender, Tomaso Belloni, Elena Gallo

Finding Faint Intermediate-Mass Black Holes in the Radio Band

Astrophysics and Space Science Springer Nature 300:1-3 (2005) 239-245

Authors:

TJ Maccarone, RP Fender, AK Tzioumis

Multiple relativistic outbursts of GRS 1915+105: radio emission and internal shocks

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 363:3 (2005) 867-881

Authors:

JCA Miller-Jones, DG McCormick, RP Fender, RE Spencer, TWB Muxlow, GG Pooley

What can we learn from Neutron Star X-Ray Binaries' JETS?

Astrophysics and Space Science Springer Nature 300:1-3 (2005) 197-209

Authors:

Simone Migliari, Rob Fender

An empirical model for the polarization of pulsar radio emission

ArXiv astro-ph/0510837 (2005)

Authors:

D Melrose, A Miller, A Karastergiou, Q Luo

Abstract:

We present an empirical model for single pulses of radio emission from pulsars based on gaussian probability distributions for relevant variables. The radiation at a specific pulse phase is represented as the superposition of radiation in two (approximately) orthogonally polarized modes (OPMs) from one or more subsources in the emission region of the pulsar. For each subsource, the polarization states are drawn randomly from statistical distributions, with the mean and the variance on the Poincar\'e sphere as free parameters. The intensity of one OPM is chosen from a log-normal distribution, and the intensity of the other OPM is assumed to be partially correlated, with the degree of correlation also chosen from a gaussian distribution. The model is used to construct simulated data described in the same format as real data: distributions of the polarization of pulses on the Poincar\'e sphere and histograms of the intensity and other parameters. We concentrate on the interpretation of data for specific phases of PSR B0329+54 for which the OPMs are not orthogonal, with one well defined and the other spread out around an annulus on the Poincar\'e sphere at some phases. The results support the assumption that the radiation emerges in two OPMs with closely correlated intensities, and that in a statistical fraction of pulses one OPM is invisible.