Fast radio burst source properties and curvature radiation model
Mar 17, 201714 pages
Published in:
- Mon.Not.Roy.Astron.Soc. 468 (2017) 3, 2726-2739
- Published: Jul 1, 2017
e-Print:
- 1703.06139 [astro-ph.HE]
DOI:
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Abstract: (Oxford University Press)
We use the observed properties of fast radio bursts (FRBs) and a number of general physical considerations to provide a broad-brush model for the physical properties of FRB sources and the radiation mechanism. We show that the magnetic field in the source region should be at least 10^14 G. This strong field is required to ensure that the electrons have sufficiently high ground state Landau energy so that particle collisions, instabilities and strong electromagnetic fields associated with the FRB radiation do not perturb electrons’ motion in the direction transverse to the magnetic field and destroy their coherent motion; coherence is required by the high observed brightness temperature of FRB radiation. The electric field in the source region required to sustain particle motion for a wave period is estimated to be of the order of 10^11 esu. These requirements suggest that FRBs are produced near the surface of magnetars perhaps via forced reconnection of magnetic fields to produce episodic, repeated, outbursts. The beaming-corrected energy release in these bursts is estimated to be about 10^36 erg, whereas the total energy in the magnetic field is at least ∼10^45 erg. We provide a number of predictions for this model which can be tested by future observations. One of which is that short duration FRB-like bursts should exist at much higher frequencies, possibly up to optical.Note:
- 15 pages, 7 figures, MNRAS accepted
- magnetic fields
- radiation mechanisms: non-thermal
- methods: analytical
- stars: neutron
References(67)
Figures(7)