Periodically-repeating fast radio bursts: Lense-Thirring precession of a debris disk?

Abstract

Recently, repeating fast radio bursts (FRBs) with a period of P FRB=16.350.18 days from FRB 180916.J0158+65 had been reported. It still remains controversial how to give rise to such a periodicity of this FRB. In this Letter, based on an assumption of a young pulsar surrounding by a debris disk, we attempt to diagnose whether the Lense-Thirring precession of the disk on the emitter can produce the observed periodicity. Our calculations indicate that the Lense-Thirring effect of a tilted disk can result in a precession period of 16 days for a mass inflow rate of 0.5-1.5×1018~ g\,s-1, a spin period of 1-20 ms of the pulsar, and an extremely low viscous parameter α=10-8 in the disk. The disk mass and the magnetic field of the pulsar are also constrained to be 10-3~ M and < 2.5× 1013~ G. In our model, a new born pulsar with normal magnetic field and millisecond period would successively experience accretion phase, propeller phase, and is visible as a strong radio source in the current stage. The rotational energy of such a young NS can provide the observed radio bursting luminosity for 400 years.