A single subatomic particle that hit Earth in 2023 carried roughly 100,000 times more energy than anything humanity has ever ...

Modern physics relies on "Dark Energy," "Dark Matter," and over 20 arbitrary tuning parameters to explain the universe. A comprehensive AI-driven audit performed by Gemini Pro on 20 technical papers ...

After 25 years, Brookhaven National Laboratory’s Relativistic Heavy Ion Collider—the U.S.’s largest particle collider—has ...

In 2023, a detector buried off the Mediterranean Sea spotted an impossibly powerful neutrino signal—tens of thousands of times more energetic than anything produced by humanity’s most powerful ...

Across the quiet darkness of space and the buried detectors under Antarctic ice, a set of stubborn anomalies is piling up.

Science funding cuts in the UK are expected to be a "devastasting blow" for physics research, affecting international ...

The UK government is set to slash its funding for astronomy, particle and nuclear physics by 30 percent in a move branded as ...

In 2023, physicists detected something that should not have existed: a single subatomic particle called a neutrino carrying an almost unimaginable amount of energy. This particle slammed into Earth ...

The famed collider at Brookhaven National Laboratory has ended operations, but if all goes to plan, a new collider will rise ...

Data from the Relativistic Heavy Ion Collider (RHIC) has revealed that particles retain spin signatures from the quantum ...

Dr. Rupak Mahapatra, an experimental particle physicist, holds a SuperCDMS detector. The highly sensitive devices, which are fabricated at Texas A&M University, are deepening the search for dark ...

Humanity has worked itself into a position where we can detect a single high-energy particle from space and wonder where in Nature it came from. Billions of people likely don’t care at all about such ...