Observation of discontinuities in the periodic modulation of PSR B1828-11
Observation of discontinuities in the periodic modulation of PSR B1828-11
PSR B1828-11 is a radio pulsar that undergoes periodic modulations (~500 days) of its spin-down rate and beam width, providing a valuable opportunity to understand the rotational dynamics of neutron stars. The periodic modulations have previously been attributed to planetary companion(s), precession, or magnetospheric effects and have several interesting features: they persist over 10 cycles, there are at least two harmonically related components, and the period is decreasing at a rate of about 5 days per cycle. PSR B1828-11 also experienced a glitch, a sudden increase in its rotation frequency, at 55 040.9 Modified Julian Day(MJD). By studying the interaction of the periodic modulations with the glitch, we seek to find evidence to distinguish explanations of the periodic modulation. Using a phenomenological model, we analyse a recently published open data set from Jodrell Bank Observatory, providing the longest and highest resolution measurements of the pulsar's spin-down rate data. Our phenomenological model consists of step changes in the amplitude, modulation frequency, and phase of the long-term periodic modulation and the usual spin-down glitch behaviour. We find clear evidence with a (natural-log) Bayes factor of 1486 to support that not only is there a change to these three separate parameters but that the shifts occur before the glitch. Finally, we also present model-independent evidence which demonstrates visually how and when the modulation period and amplitude change. Discontinuities in the modulation period are difficult to explain if a planetary companion sources the periodic modulations, but we conclude with a discussion on the insights into precession and magnetospheric switching.
astro-ph.HE, pulsars: general, pulsars: individual: PSR B1828–11, stars: neutron
2923-2936
Dias, Adriana
29aeea17-319c-45b6-887d-e1cec42770fa
Ashton, Gregory
09bf2f01-abeb-4240-af43-ee0d67f61448
Ostrovska, Julianna
66a479c8-521c-44cf-bc6b-d484a91fcbac
Jones, David Ian
b8f3e32c-d537-445a-a1e4-7436f472e160
Keith, Michael
7cf8b96d-15b7-4a4a-96e5-e6e23df36cb2
31 March 2025
Dias, Adriana
29aeea17-319c-45b6-887d-e1cec42770fa
Ashton, Gregory
09bf2f01-abeb-4240-af43-ee0d67f61448
Ostrovska, Julianna
66a479c8-521c-44cf-bc6b-d484a91fcbac
Jones, David Ian
b8f3e32c-d537-445a-a1e4-7436f472e160
Keith, Michael
7cf8b96d-15b7-4a4a-96e5-e6e23df36cb2
Dias, Adriana, Ashton, Gregory, Ostrovska, Julianna, Jones, David Ian and Keith, Michael
(2025)
Observation of discontinuities in the periodic modulation of PSR B1828-11.
Monthly Notices of the Royal Astronomical Society, 538 (4), .
(doi:10.1093/mnras/staf468).
Abstract
PSR B1828-11 is a radio pulsar that undergoes periodic modulations (~500 days) of its spin-down rate and beam width, providing a valuable opportunity to understand the rotational dynamics of neutron stars. The periodic modulations have previously been attributed to planetary companion(s), precession, or magnetospheric effects and have several interesting features: they persist over 10 cycles, there are at least two harmonically related components, and the period is decreasing at a rate of about 5 days per cycle. PSR B1828-11 also experienced a glitch, a sudden increase in its rotation frequency, at 55 040.9 Modified Julian Day(MJD). By studying the interaction of the periodic modulations with the glitch, we seek to find evidence to distinguish explanations of the periodic modulation. Using a phenomenological model, we analyse a recently published open data set from Jodrell Bank Observatory, providing the longest and highest resolution measurements of the pulsar's spin-down rate data. Our phenomenological model consists of step changes in the amplitude, modulation frequency, and phase of the long-term periodic modulation and the usual spin-down glitch behaviour. We find clear evidence with a (natural-log) Bayes factor of 1486 to support that not only is there a change to these three separate parameters but that the shifts occur before the glitch. Finally, we also present model-independent evidence which demonstrates visually how and when the modulation period and amplitude change. Discontinuities in the modulation period are difficult to explain if a planetary companion sources the periodic modulations, but we conclude with a discussion on the insights into precession and magnetospheric switching.
Text
2501.09834v1
- Author's Original
Text
accepted_version
- Accepted Manuscript
Text
staf468
- Version of Record
More information
Accepted/In Press date: 19 March 2025
e-pub ahead of print date: 21 March 2025
Published date: 31 March 2025
Keywords:
astro-ph.HE, pulsars: general, pulsars: individual: PSR B1828–11, stars: neutron
Identifiers
Local EPrints ID: 500529
URI: http://eprints.soton.ac.uk/id/eprint/500529
ISSN: 1365-2966
PURE UUID: bf0c5126-9af2-4b54-b907-1cb207ce0da9
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Date deposited: 02 May 2025 17:04
Last modified: 28 Aug 2025 01:39
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Contributors
Author:
Adriana Dias
Author:
Gregory Ashton
Author:
Julianna Ostrovska
Author:
Michael Keith
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