Scientists are using trapped ions in cutting-edge experiments to hunt for signs of an undiscovered particle that might help unravel the mystery of dark matter. The Standard Model of particle physics o ...

The precursors of heavy elements might arise in the plasma underbellies of swollen stars or in smoldering stellar corpses.

Solving life's great mysteries often requires detective work, using observed outcomes to determine their cause. For instance, ...

Maximal entanglement sheds new light on particle creation Study shows particles produced in 'jets' retain information about their origins Date: April 11, 2025 Source: DOE/Brookhaven National ...

The researchers estimate that the neutrino’s energy was on the order of 220 peta electron volts, more than 30 times higher than the most energetic neutrino detected prior to the new observations.

A subatomic particle called the muon caused waves when its experimental behaviour didn't align with a prediction based on the standard model. A new calculation might resolve the discrepancy ...

While the past few decades have produced some compelling candidates, researchers using the Beijing Electron–Positron Collider II (BEPC-II) in China have discovered another one known as particle ...

That would make the Amaterasu particle 244,000,000,000,000,000,000 electron volts. By comparison, the typical energy of an electron in the polar aurora is 40,000 electron volts, according to NASA.

That would make the Amaterasu particle 244,000,000,000,000,000,000 electron volts. By comparison, the typical energy of an electron in the polar aurora is 40,000 electron volts, according to NASA.

That would make the Amaterasu particle 244,000,000,000,000,000,000 electron volts. By comparison, the typical energy of an electron in the polar aurora is 40,000 electron volts, according to NASA.

The tried and tested basic law of modern particle physics—what scientists call the Standard Model —enshrines the muon as one of our universe’s fundamental building blocks.