Immediately after the Big Bang boomed, the Universe was a trillion-degree ' soup ' of unimaginably dense plasma. In a ...

Detected in 2021, the Amaterasu particle ranks among the most energetic cosmic rays ever observed, carrying an estimated 244 ...

Scientists say an ultra-powerful neutrino once thought impossible may be explained by an exotic black hole model involving a so-called “dark charge.” ...

Scientists discovered “magic” top quarks at CERN’s Large Hadron Collider, demonstrating how the facility has evolved to support quantum computing research.

A computer scientist at the University of Nebraska–Lincoln is spearheading three innovative projects to enhance the speed, ...

After years of work building an exquisitely sensitive instrument, University of Chicago scientists stood and watched as it flew up and out of sight into the fiercely blue Antarctic sky. Launched on ...

Scientists believe that studying these explosions can help understand where such powerful neutrinos came from and can also provide new information in understanding the mystery of dark matter.

Discover Switzerland’s neighbouring countries, location, geography, history, fast facts, and fascinating insights explained clearly.

The last collisions at RHIC took place on February 6, 2026. The particle accelerator provided insights into Big Bang matter for 25 years.

We start this week with a bit of a good news/bad news situation. On February 6th, the Relativistic Heavy Ion Collider (RHIC) was shut down after 25 years of operation. Located at Brookhaven ...

Trillions of neutrinos—nearly massless, neutrally charged particles—pass through us every second, but we only acknowledge their existence when these so-called “ghost particles” slam against the many ...

I peeked in on the house-sized particle detector known as STAR just after it took its last-ever snapshot of one of the most extreme types of fireball ever created. Inside, the conditions just after ...