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

Scientists with the Askaryan Radio Array in Antarctica have recorded the first in-ice evidence of radio pulses from cosmic ...

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

There may be an ultraheavy explanation for the mystery surrounding the origins of the highest-energy particles ever observed.

A long-standing cosmic mystery is beginning to yield new clues as researchers uncover a strikingly consistent pattern in the ...

"First predicted by Askaryan in 1962, this radiation has its origin in the netnegative charge generated in the moving shower ...

New analyses by the IceCube observatory could help scientists understand where neutrinos form and what is producing them ...

Scientists with the Askaryan Radio Array in Antarctica have confirmed the first detection of in-ice Askaryan radiation from high-energy cosmic rays, a phenomenon predicted in 1962. The 13 recorded ...

A century after their discovery, cosmic rays—particles of extreme energy originating from the far reaches of the ...

An unprecedented neutrino detection in the Mediterranean has pushed the boundaries of high-energy astrophysics, raising new ...

The investigation of cosmic rays and their potential connection with dark matter occupies a central role in contemporary astrophysics. Recent experimental and theoretical advances have refined our ...