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FRB coherent emission from decay of Alfvén waves

Pawan Kumar, Ž. Bošnjak

2020Monthly Notices of the Royal Astronomical Society103 citationsDOIOpen Access PDF

Abstract

ABSTRACT We present a model for fast radio bursts (FRBs) where a large-amplitude Alfvén wave packet is launched by a disturbance near the surface of a magnetar, and a substantial fraction of the wave energy is converted to coherent radio waves at a distance of a few tens of neutron star radii. The wave amplitude at the magnetar surface should be about 1011 G in order to produce an FRB of isotropic luminosity 1044 erg s−1. An electric current along the static magnetic field is required by Alfvén waves with non-zero component of transverse wave vector. The current is supplied by counter-streaming electron–positron pairs, which have to move at nearly the speed of light at larger radii as the plasma density decreases with distance from the magnetar surface. The counter-streaming pairs are subject to two-stream instability, which leads to formation of particle bunches of size of the order of c/ωp, where ωp is the plasma frequency. A strong electric field develops along the static magnetic field when the wave packet arrives at a radius where electron–positron density is insufficient to supply the current required by the wave. The electric field accelerates particle bunches along the curved magnetic field lines, and that produces the coherent FRB radiation. We provide a number of predictions of this model.

Topics & Concepts

PhysicsMagnetarAlfvén waveElectric fieldMagnetic fieldAmplitudeNeutron starRADIUSBunchesElectronComputational physicsAtomic physicsAstrophysicsMagnetohydrodynamicsOpticsNuclear physicsQuantum mechanicsComputer scienceComputer securityPulsars and Gravitational Waves ResearchAstrophysics and Cosmic PhenomenaGamma-ray bursts and supernovae
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