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A new theory to explain fast radio bursts

A new theory to explain fast radio bursts

Enlargement: selected magnetic field lines of the flare (blue) interacting with field lines of the orbital current sheet (yellow) at time t≃1.18torbit. The field lines in the flare are predominantly toroidal, which begins to get compressed during the impact. For illustration purposes, only a subset of the magnetic field lines is shown. Credit: Physical Review Letters (2023). DOI: 10.1103/PhysRevLett.130.245201

A pair of astrophysicists, one with Princeton University, the other the University of Maryland, has developed a new theory to explain fast radio bursts (FSBs). In their paper published in the journal Physical Review Letters, Elias Most and Alexander Philippov, describe their theory and how it fits in with other theories surrounding FSBs.

The first FSB was recorded in 2007, and since that time, more than 600 have been recorded, all by chance. This is because astronomers do not know their source. What they do know is that they are strong, short-lived bursts of radio waves, and that at least so far, all of them originated from very far away.

One of the leading theories developed to explain FSBs is that they are caused by magnetars, a type of slowly rotating neutron star. The theory suggests that their super-strong magnetic energy bursts are behind FSBs. Unfortunately, there has been no way to prove whether the theory is correct. In this new effort, the researchers suggest another possibility—that they occur shortly before two merge.

Prior research has suggested that neutron star mergers tend to have electromagnetic counterparts—one such event was actually recorded back in 2017. Most and Philippov suggest that as neutron stars approach one another, their increases. That speeds up over their poles, resulting in the creation of an electron-positron plasma field. Then, as the stars grow closer, the escapes the magnetic fields from both stars in an orbital plane just before they collide. This, they suggest, results in the release of a massive burst of energy, which is detected by instruments on Earth as fast bursts of radio waves.

The researchers also suggest that such a burst would be similar to radio waves emitted by magnetars. They note the major difference with magnetars would be that the emissions occur after the events that lead to their creation, whereas with a neutron star merger, the action happens just prior. They conclude that new technology, such as the deployment of the Square Kilometer Array in 2027, should provide a means of confirming which if either of the two theories is correct.

More information:
Elias R. Most et al, Reconnection-Powered Fast Radio Transients from Coalescing Neutron Star Binaries, Physical Review Letters (2023). DOI: 10.1103/PhysRevLett.130.245201. On arXiv: DOI: 10.48550/arxiv.2207.14435

Featured in Physics: physics.aps.org/articles/v16/s88

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A new theory to explain fast radio bursts (2023, June 27)
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