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 1. nature
 2. news
 3. article

  * NEWS
  * 23 November 2023
  * Correction 24 November 2023

The most powerful cosmic ray since the Oh-My-God particle puzzles
scientists

Scientists spot a particle of intense energy, but explaining where it
came from might require some new physics.

  * Gemma Conroy

 1. Gemma Conroy
    View author publications

    You can also search for this author in PubMed  Google Scholar

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Researchers check the Telescope Array surface detector in the high
desert in Delta, Utah, USA.

Researchers check the Telescope Array surface detector in the high
desert in Delta, Utah, in 2019. In 2021, the Telescope Array detected
the second-most energetic cosmic ray particle recorded.Credit: The
Yomiuri Shimbun via AP/Alamy

Scientists have detected the most powerful cosmic ray seen in more
than three decades. But the exact origin of this turbocharged
particle from outer space remains a mystery, with some suggesting
that it could have been generated by unknown physics.

The puzzling cosmic ray had an estimated energy of 240
exa-electronvolts (EeV; 10^18 electronvolts), making it comparable to
the most powerful cosmic ray ever detected, aptly named the Oh-My-God
particle, which measured at around 320 EeV when it was discovered in
1991. The findings were published today in Science^1.

"It's amazing because you have to think of what could produce such
high energy," says Clancy James, an astronomer at Curtin University
in Perth, Australia.

A cosmic ray, despite its name, is actually a high-energy subatomic
particle -- often a proton -- that zips through space at close to the
speed of light. In their ultrahigh-energy form, cosmic rays have
energy levels that exceed one EeV, which is around one million times
greater than those reached by the most powerful human-made particle
accelerators. Cosmic rays with energies of more than 100 EeV are
rarely spotted -- fewer than one of these particles arrives on each
square kilometre of Earth each century.

Not a mistake

Toshihiro Fujii, an astronomer at the Osaka Metropolitan University
in Japan, stumbled across some bizarre signals on 27 May 2021, while
he was doing a routine data check at the Telescope Array, a
cosmic-ray detector in Millard County, Utah. The signals suggested
that the facilities' detectors had been smashed with something super
energetic, but he was sceptical at first. "I thought there was some
sort of mistake or bug in the software," says Fujii. "I was really
surprised." But measurements were consistent with those produced by
ultra-cosmic rays. The scientists nicknamed the particle 'Amaterasu',
after a Japanese Sun goddess.

But when Fujii and his team tried to pinpoint the source of the
energetic spike, they drew a blank. Ultrahigh-energy cosmic rays
usually travel through space relatively smoothly, because they don't
bounce off magnetic fields as strongly as low-energy cosmic rays do.
This would have made it easy to pinpoint the stellar explosion, black
hole or galaxy that it came from.

But Fujii and his team calculated the source of the ray to be in a
void-like region where few galaxies reside. To cover all bases, the
researchers also tried matching the cosmic ray with possible source
galaxies and objects located just outside its arrival direction. But
none of them seemed to fit. "There was nothing," says Fujii.

One explanation could be that the models estimating how magnetic
fields influence the course of cosmic rays are off and could require
some tweaking, says James. If that's the case, it's possible that
Amaterasu might have come from a slightly different direction than
the team's calculations suggest. "We think we've got good estimates,
but maybe we're wrong," says James.

Another possibility is that ultrahigh-energy cosmic rays are produced
by unknown physical processes that might enable them to travel much
vaster distances than previously thought, says Jose Bellido Caceres,
an astroparticle physicist at the University of Adelaide, Australia.
"It could be new physics," says Bellido Caceres, who has worked on
the Pierre Auger Observatory in Malargue, Argentina. He adds that
cosmic rays offer a testing ground for exploring how particles
interact at extreme energies that cannot be produced by accelerators
on Earth.

Fujii and his team are in the process of upgrading the Telescope
Array to be four times as sensitive as before. This will allow
researchers to capture more of these rare ultrahigh-energy cosmic
rays and trace their origins more precisely.

doi: https://doi.org/10.1038/d41586-023-03677-0

Updates & Corrections

  * Correction 24 November 2023: An earlier version of this article
    defined the exa-electronvolt incorrectly. It is 10^18
    electronvolts.

References

 1. Telescope Array Collaboration. Science https://doi.org/10.1126/
    science.abo5095 (2023).

    Article  Google Scholar 

Download references

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