A Study of Multi-frequency Polarization Pulse Profiles of Millisecond Pulsars

TL;DR

This study provides detailed multi-frequency polarization pulse profiles for 24 millisecond pulsars, revealing complex profile evolution, polarization properties, and spectral behaviors across three radio bands over six years.

Contribution

It offers the first comprehensive multi-frequency polarization profiles for these pulsars, including new profile features and detailed phase-resolved polarization and spectral measurements.

Findings

Pulse profiles extend across almost the entire pulse phase.

Component widths and separations evolve non-trivially with frequency.

Polarization properties vary systematically across the pulse profile.

Abstract

We present high signal-to-noise ratio, multi-frequency polarization pulse profiles for 24 millisecond pulsars that are being observed as part of the Parkes Pulsar Timing Array (PPTA) project. The pulsars are observed in three bands, centred close to 730, 1400 and 3100 MHz, using a dual-band 10 cm/50 cm receiver and the central beam of the 20 cm multibeam receiver. Observations spanning approximately six years have been carefully calibrated and summed to produce high S/N profiles. This allows us to study the individual profile components and in particular how they evolve with frequency. We also identify previously undetected profile features. For many pulsars we show that pulsed emission extends across almost the entire pulse profile. The pulse component widths and component separations follow a complex evolution with frequency; in some cases these parameters increase and in other cases they decrease with increasing frequency. The evolution with frequency of the polarization properties of the profile is also non-trivial. We provide evidence that the pre- and post-cursors generally have higher fractional linear polarization than the main pulse. We have obtained the spectral index and rotation measure for each pulsar by fitting across all three observing bands. For the majority of pulsars, the spectra follow a single power-law and the position angles follow a $\lambda^2$ relation, as expected. However, clear deviations are seen for some pulsars. We also present phase-resolved measurements of the spectral index, fractional linear polarization and rotation measure. All these properties are shown to vary systematically over the pulse profile.