On the Interacting/Active Lifetime of Supernova Fallback Disks around Isolated Neutron Stars

On the Interacting/Active Lifetime of Supernova Fallback Disks around Isolated Neutron Stars

The fallback disk model is widely accepted to explain long-period neutron stars (NSs) that cannot be simulated by magnetic dipole radiation. However, there was no confirmed detection of disks from the newly discovered long-period pulsars GLEAM-X 162759.5-523504.3 and GPM J1839-10 and the slowest kno...

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Veröffentlicht in:The Astrophysical journal 2024-07, Vol.970 (1), p.2
Hauptverfasser: Xu, Kun, Yang, Hao-Ran, Jiang, Long, Chen, Wen-Cong, Li, Xiang-Dong, Liu, Jifeng
Format: Artikel
Sprache:eng
Schlagworte:
Debris disks
Disks
Magnetars
Magnetic dipoles
Neutron stars
Pulsars
Self-similarity
Stellar rotation
Supernova
Supernovae
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Zusammenfassung:The fallback disk model is widely accepted to explain long-period neutron stars (NSs) that cannot be simulated by magnetic dipole radiation. However, there was no confirmed detection of disks from the newly discovered long-period pulsars GLEAM-X 162759.5-523504.3 and GPM J1839-10 and the slowest known isolated NS 1E 161348-5055. This might be because the disks have either been in a noninteracting/inactive state where their emission is too weak to be detected or have been disrupted. In this work, we conduct simulations to examine the lifetime of supernova fallback disks around isolated NSs. We assume that the disks' mass varies in a self-similar way, and their interaction with the NS occurs only in an interacting/active state. Our results reveal that nearly all the interacting lifetimes for the disks are shorter than 10 5 yr, while the existence lifetimes are considerably longer.
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/ad5319