Synchrotron Heating by a Fast Radio Burst in a Self-absorbed Synchrotron Nebula and Its Observational Signature

Authors

Yuan-Pei Yang, University of Nevada, Las VegasFollow
Bing Zhang, University of Nevada, Las VegasFollow
Zi-Gao Dai, Nanjing UniversityFollow

Document Type

Article

Publication Date

2-24-2016

Publication Title

The Astrophysical Journal Letters

Volume

819

Issue

1

First page number:

L12

Abstract

Fast radio bursts (FRBs) are mysterious transient sources. If extragalactic, as suggested by their relative large dispersion measures, their brightness temperatures must be extremely high. Some FRB models (e.g., young pulsar model, magnetar giant flare model, or supra-massive neutron star collapse model) suggest that they may be associated with a synchrotron nebula. Here we study a synchrotron-heating process by an FRB in a self-absorbed synchrotron nebula. If the FRB frequency is below the synchrotron self-absorption frequency of the nebula, electrons in the nebula would absorb FRB photons, leading to a harder electron spectrum and enhanced self-absorbed synchrotron emission. In the meantime, the FRB flux is absorbed by the nebula electrons. We calculate the spectra of FRB-heated synchrotron nebulae, and show that the nebula spectra would show a significant hump in several decades near the self-absorption frequency. Identifying such a spectral feature would reveal an embedded FRB in a synchrotron nebula.

Repository Citation

Yang, Y., Zhang, B., Dai, Z. (2016). Synchrotron Heating by a Fast Radio Burst in a Self-absorbed Synchrotron Nebula and Its Observational Signature. The Astrophysical Journal Letters, 819(1), L12.
http://dx.doi.org/10.3847/2041-8205/819/1/L12