Scattering analysis of LOFAR pulsar observations

M. Geyer, A Karastergiou, V I Kondratiev, K Zagkouris, Michael Kramer, Benjamin Stappers, J.-M. Griebmeier, J W T Hessels, D Michilli, M Pilia, C Sobey

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    Abstract

    We measure the effects of interstellar scattering on average pulse profiles from 13 radio pulsars with simple pulse shapes. We use data from the LOFAR High Band Antennas, at frequencies between 110 and 190 MHz. We apply a forward fitting technique, and simultaneously determine the intrinsic pulse shape, assuming single Gaussian component profiles. We find that the constant, associated with scattering by a single thin screen, has a power law dependence on frequency / 􀀀, with indices ranging from = 1:50 to 4:0, despite simplest theoretical models predicting = 4:0 or 4:4. Modelling the screen as an isotropic or extremely anisotropic scatterer, we find anisotropic scattering fits lead to larger power law indices, often in better agreement with theoretically expected values. We compare the scattering models based on the inferred,
    frequency dependent parameters of the intrinsic pulse, and the resulting correction to the dispersion measure. We highlight the cases in which fits of extreme anisotropic scattering are appealing, while stressing that the data do not strictly favour either model for any of the 13 pulsars. The pulsars show anomalous scattering properties that are consistent with finite scattering screens and/or anisotropy, but these data alone do not provide the means for an unambiguous characterisation of the screens. We revisit the empirical vs DM relation and consider how our results support a frequency dependence of . Very Long Baseline Interferometry, and observations of the scattering and scintillation properties of these sources at higher frequencies, will provide further evidence.
    Original languageEnglish
    Article numberstx1151
    JournalMonthly Notices of the Royal Astronomical Society
    DOIs
    Publication statusPublished - 11 May 2017

    Keywords

    • pulsars: general
    • Scattering
    • ISM: structure

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