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Dynamical Formation Channels for Fast Radio Bursts in Globular Clusters

Kyle Kremer, Anthony L. Piro, Dongzi Li

2021The Astrophysical Journal Letters63 citationsDOIOpen Access PDF

Abstract

Abstract The repeating fast radio burst (FRB) localized to a globular cluster (GC) in M81 challenges our understanding of FRB models. In this Letter, we explore dynamical formation scenarios for objects in old GCs that may plausibly power FRBs. Using N -body simulations, we demonstrate that young neutron stars (NSs) may form in GCs at a rate of up to ∼50 Gpc −3 yr −1 through a combination of binary white dwarf (WD) mergers, WD–NS mergers, binary NS mergers, and accretion-induced collapse of massive WDs in binary systems. We consider two FRB emission mechanisms: First, we show that a magnetically powered source (e.g., a magnetar with field strength ≳10 14 G) is viable for radio emission efficiencies ≳10 −4 . This would require magnetic activity lifetimes longer than the associated spin-down timescales and longer than empirically constrained lifetimes of Galactic magnetars. Alternatively, if these dynamical formation channels produce young rotation-powered NSs with spin periods of ∼10 ms and magnetic fields of ∼10 11 G (corresponding to spin-down lifetimes of ≳10 5 yr), the inferred event rate and energetics can be reasonably reproduced for order unity duty cycles. Additionally, we show that recycled millisecond pulsars or low-mass X-ray binaries similar to those well-observed in Galactic GCs may also be plausible channels, but only if their duty cycle for producing bursts similar to the M81 FRB is small.

Topics & Concepts

Globular clusterPhysicsNeutron starAstrophysicsMillisecond pulsarWhite dwarfBinary numberDuty cycleCluster (spacecraft)MagnetarMagnetic fieldPulsarStarsMillisecondAstronomyPower lawEvent (particle physics)Star clusterMagnetohydrodynamicsField (mathematics)BurstingPulsars and Gravitational Waves ResearchGamma-ray bursts and supernovaeAstrophysical Phenomena and Observations