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Pulsar scintillation studies with LOFAR: II. Dual-frequency scattering study of PSR J0826+2637 with LOFAR and NenuFAR

Wu, Ziwei; Coles, William A.; Verbiest, Joris P.W.; Ambalappat, Krishnakumar Moochickal; Tiburzi, Caterina; Grießmeier, Jean Mathias; Main, Robert A.; Liu, Yulan; Kramer, Michael; Wucknitz, Olaf; Porayko, Nataliya; Osłowski, Stefan; Bak Nielsen, Ann-Sofie; Donner, Julian Y.; Hoeft, Matthias; Brüggen, Marcus; Vocks, Christian; Dettmar, Ralf Jürgen; Theureau, Gilles; Serylak, Maciej; Kondratiev, Vladislav; McKee, James W.; Shaifullah, Golam M.; Kravtsov, Ihor P.; Zakharenko, Vyacheslav V.; Ulyanov, Oleg; Konovalenko, Olexandr O.; Zarka, Philippe; Cecconi, Baptiste; Koopmans, Léon V.E.; Corbel, Stéphane

Authors

Ziwei Wu

William A. Coles

Joris P.W. Verbiest

Krishnakumar Moochickal Ambalappat

Caterina Tiburzi

Jean Mathias Grießmeier

Robert A. Main

Yulan Liu

Michael Kramer

Olaf Wucknitz

Nataliya Porayko

Stefan Osłowski

Ann-Sofie Bak Nielsen

Julian Y. Donner

Matthias Hoeft

Marcus Brüggen

Christian Vocks

Ralf Jürgen Dettmar

Gilles Theureau

Maciej Serylak

Vladislav Kondratiev

Golam M. Shaifullah

Ihor P. Kravtsov

Vyacheslav V. Zakharenko

Oleg Ulyanov

Olexandr O. Konovalenko

Philippe Zarka

Baptiste Cecconi

Léon V.E. Koopmans

Stéphane Corbel



Abstract

Interstellar scattering (ISS) of radio pulsar emission can be used as a probe of the ionized interstellar medium (IISM) and causes corruptions in pulsar timing experiments. Two types of ISS phenomena (intensity scintillation and pulse broadening) are caused by electron density fluctuations on small scales (< 0.01 au). Theory predicts that these are related, and both have been widely employed to study the properties of the IISM. Larger scales (∼1 – 100 au) cause measurable changes in dispersion and these can be correlated with ISS observations to estimate the fluctuation spectrum over a very wide scale range. IISM measurements can often be modelled by a homogeneous power-law spatial spectrum of electron density with the Kolmogorov (−11/3) spectral exponent. Here, we aim to test the validity of using the Kolmogorov exponent with PSR J0826+2637. We do so using observations of intensity scintillation, pulse broadening and dispersion variations across a wide fractional bandwidth (20–180 MHz). We present that the frequency dependence of the intensity scintillation in the high-frequency band matches the expectations of a Kolmogorov spectral exponent, but the pulse broadening in the low-frequency band does not change as rapidly as predicted with this assumption. We show that this behaviour is due to an inhomogeneity in the scattering region, specifically that the scattering is dominated by a region of transverse size ∼40 au. The power spectrum of the electron density, however, maintains the Kolmogorov spectral exponent from spatial scales of 5 × 10−6 au to ∼100 au.

Citation

Wu, Z., Coles, W. A., Verbiest, J. P., Ambalappat, K. M., Tiburzi, C., Grießmeier, J. M., …Corbel, S. (2023). Pulsar scintillation studies with LOFAR: II. Dual-frequency scattering study of PSR J0826+2637 with LOFAR and NenuFAR. Monthly notices of the Royal Astronomical Society, 520(4), 5536-5543. https://doi.org/10.1093/mnras/stad429

Journal Article Type Article
Acceptance Date Feb 6, 2023
Online Publication Date Feb 9, 2023
Publication Date Apr 1, 2023
Deposit Date Jul 14, 2023
Publicly Available Date Jul 14, 2023
Journal Monthly Notices of the Royal Astronomical Society
Print ISSN 0035-8711
Electronic ISSN 1365-2966
Publisher Oxford University Press
Peer Reviewed Peer Reviewed
Volume 520
Issue 4
Pages 5536-5543
DOI https://doi.org/10.1093/mnras/stad429
Keywords ISM: clouds, pulsars: general, pulsars: individual: PSR J0826+2637
Public URL https://hull-repository.worktribe.com/output/4260857

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Copyright Statement
This article has been accepted for publication in Monthly Notices of the Royal Astronomical Society. © 2023 The Author(s). All rights reserved. Published by Oxford University Press on behalf of Royal Astronomical Society.




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