A freely precessing magnetar following an X-ray outburst

Magnetars—highly magnetized neutron stars—are thought to be the most likely progenitors for fast radio bursts (FRBs). Freely precessing magnetars are further invoked to explain the repeating FRBs. We report here on new high-cadence radio observations of the magnetar XTE J1810–197 recorded shortly af...

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Veröffentlicht in:Nature Astronomy 2024, Vol.8 (5), p.617-627
Hauptverfasser: Desvignes, Gregory, Weltevrede, Patrick, Gao, Yong, Jones, David Ian, Kramer, Michael, Caleb, Manisha, Karuppusamy, Ramesh, Levin, Lina, Liu, Kuo, Lyne, Andrew G., Shao, Lijing, Stappers, Ben, Pétri, Jérôme
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Sprache:eng
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Zusammenfassung:Magnetars—highly magnetized neutron stars—are thought to be the most likely progenitors for fast radio bursts (FRBs). Freely precessing magnetars are further invoked to explain the repeating FRBs. We report here on new high-cadence radio observations of the magnetar XTE J1810–197 recorded shortly after an X-ray outburst. We interpret the polarization variations of the magnetar radio emission as evidence for the magnetar undergoing free precession following the outburst while its magnetosphere slowly untwists. The observations of precession being damped on a timescale of months argue against the scenario of freely precessing magnetars as the origin of repeating FRBs. Using free-precession models based on relaxing ellipticity with a decay of the wobble angle, we find the magnetar ellipticity to be in good agreement with theoretical predictions from nuclear physics. Our precise measurement of the magnetar’s geometry can also further help in refining the modelling of X-ray light curves and constrain the star’s compactness. A radio-loud magnetar, XTE J1810–197, has been observed to precess shortly after an X-ray outburst. The precession decayed over the subsequent few months, which probably rules out freely precessing magnetars as the source of the fast radio bursts.
ISSN:2397-3366
2397-3366
DOI:10.1038/s41550-024-02226-7