Detection by Askaryan Radio Array holds promise for future research into sources, nature of cosmic rays and neutrinos ...

A detector deep beneath the frozen southern continent has obtained first evidence of a rare cosmic phenomenon.

The Dark Matter Particle Explorer (DAMPE, also known as "Wukong") Collaboration has obtained a high-precision cosmic-ray boron spectrum in the energy range of 10 GeV/n–8 TeV/n, and discovered a ...

High-energy cosmic rays, 10 million times more powerful than particles accelerated in Earth's strongest atom smasher, may ...

"First predicted by Askaryan in 1962, this radiation has its origin in the netnegative charge generated in the moving shower front as Compton, Bhabha, and Møller scattering draws electrons from the ...

Cosmic rays are primarily composed of protons, but also of helium, carbon, oxygen, and iron nuclei. © Chinese Academy of ...

Ultraheavy particle clue: Penn State-led research suggests some ultrahigh-energy cosmic rays are made of nuclei heavier than iron, altering theories on their origins. Record-breaking events: The 2021 ...

A project from NASA to study the Antarctic found strange radio waves that could not be traced back to an obvious source. Though that project took place between 2016 and 2018, still today the radio ...

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