Astronomers find most distant odd radio circle

Astronomers have discovered the most distant and powerful odd radio circle, a massive double-ringed radio structure nearly 10 billion years old. Using citizen science and the LOFAR telescope, researchers propose these cosmic rings form from galactic superwinds rather than black hole mergers. The finding challenges existing theories and highlights the role of human pattern recognition in astronomy.

Black holes may explain 60-year cosmic rays mystery

October 07, 2025 Reported by AI

Scientists at the Norwegian University of Science and Technology propose that winds from supermassive black holes could accelerate ultra-high-energy cosmic rays, solving a puzzle dating back to 1962. These particles, mostly atomic nuclei, reach energies up to 10^20 electron volts. The hypothesis suggests these winds, moving at half the speed of light, fling particles across the cosmos.

Scientists develop new AI method for dark matter detection

October 01, 2025 Reported by AI

Researchers have introduced an innovative artificial intelligence approach to identify dark matter particles, using data from existing telescopes. This breakthrough could enhance our understanding of the universe's invisible components. The findings were detailed in a study published on September 29, 2025.

Researchers unveil new AI method for dark matter detection

Scientists at the University of California have introduced an innovative AI-driven technique to identify dark matter signals from telescope data. The method, detailed in a recent Nature publication, promises to enhance detection accuracy significantly. This breakthrough could accelerate the confirmation of dark matter particles.