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Late-blooming magnetars: awakening as ultra-long period objects after a dormant cooling epoch

Published 8 May 2025 in astro-ph.HE, hep-ph, and hep-th | (2505.05373v1)

Abstract: Ultra-long period transients (ULPs) are an elusive class of compact objects uncovered by radio surveys. While magnetars are a leading candidate for isolated ULPs, several observational properties challenge the established evolutionary framework: (i) low quiescent X-ray luminosities, (ii) $\sim$~hour-long rotational periods, and (iii) highly-variable radio flux. It is shown via magnetothermal modelling that, if electric currents thread the fluid core at the time of crust freezing, the neutron star remains multiband silent for an initial period of approximately 0.1 Myr while cooling passively. Once the crust becomes cold enough, the Hall effect begins to dominate the magnetic evolution, triggering crustal failures that inject magnetospheric twist that initiates radio pulsing while depleting rotational kinetic energy from an already-slow star. Depending on where electric currents circulate, such 'late-blooming' magnetars manifesting as Galactic ULPs may thus form a distinct branch from soft gamma repeaters and anomalous X-ray pulsars.

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