# Fast Radio Bursts

**Authors:** E. Petroff, J. W. T. Hessels, D. R. Lorimer

arXiv: 1904.07947 · 2019-06-05

## TL;DR

Fast radio bursts are intense, short-lived radio signals originating from outside our galaxy, with recent advances in wide-field radio telescopes promising significant progress in understanding their origins and implications for astrophysics.

## Contribution

This review summarizes recent observational and theoretical developments in FRB research, highlighting upcoming discoveries enabled by new wide-field radio instruments.

## Key findings

- FRBs are extragalactic, highly luminous radio transients.
- Two FRB sources are known to repeat, indicating diverse origins.
- Upcoming wide-field telescopes will detect multiple FRBs daily.

## Abstract

The discovery of radio pulsars over a half century ago was a seminal moment in astronomy. It demonstrated the existence of neutron stars, gave a powerful observational tool to study them, and has allowed us to probe strong gravity, dense matter, and the interstellar medium. More recently, pulsar surveys have led to the serendipitous discovery of fast radio bursts (FRBs). While FRBs appear similar to the individual pulses from pulsars, their large dispersive delays suggest that they originate from far outside the Milky Way and hence are many orders-of-magnitude more luminous. While most FRBs appear to be one-off, perhaps cataclysmic events, two sources are now known to repeat and thus clearly have a longer-lived central engine. Beyond understanding how they are created, there is also the prospect of using FRBs -- as with pulsars -- to probe the extremes of the Universe as well as the otherwise invisible intervening medium. Such studies will be aided by the high implied all-sky event rate: there is a detectable FRB roughly once every minute occurring somewhere on the sky. The fact that less than a hundred FRB sources have been discovered in the last decade is largely due to the small fields-of-view of current radio telescopes. A new generation of wide-field instruments is now coming online, however, and these will be capable of detecting multiple FRBs per day. We are thus on the brink of further breakthroughs in the short-duration radio transient phase space, which will be critical for differentiating between the many proposed theories for the origin of FRBs. In this review, we give an observational and theoretical introduction at a level that is accessible to astronomers entering the field.

## Full text

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## Figures

22 figures with captions in the complete paper: https://tomesphere.com/paper/1904.07947/full.md

## References

270 references — full list in the complete paper: https://tomesphere.com/paper/1904.07947/full.md

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Source: https://tomesphere.com/paper/1904.07947