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Scattering study of Pulsars below 100 MHz using LWA1

arXiv:1903.03457 · doi:10.3847/1538-4357/ab0d8f

Abstract

Interstellar scattering causes pulsar profiles to grow asymmetrically, thus affecting the pulsar timing residuals, and is strongest at lower frequencies. Different Interstellar medium models predict different frequency ($ν$) and dispersion measure (DM) dependencies for the scattering time-scale $τ_{sc}$. For Gaussian inhomogeneity the expected scaling relation is $τ_{sc} \propto ν^{-4}\ DM^{2}$, while for a Kolmogorov distribution of irregularities, the expected relation is $τ_{sc} \propto ν^{-4.4}\ DM^{2.2}$. Previous scattering studies show a wide range of scattering index across all ranges of DM. A scattering index below 4 is believed to be either due to limitations of the underlying assumptions of the thin screen model or an anisotropic scattering mechanism. We present a study of scattering for seven nearby pulsars (DM $< 50$ pc cm$^{-3}$) observed at low frequencies ($10-88$ MHz), using the first station of the Long Wavelength Array (LWA1). We examine the scattering spectral index and DM variation over a period of about three years. The results yield insights into the small-scale structure of ISM as well as the applicability of the thin screen model for low DM pulsars.

9 Figures, Accepted for publication by ApJ