The neutrino was 30 times more energetic than any other previously observed particle of its kind. Scientists still don’t know ...

Dark matter can't be too heavy or it might break our best model of the universe, new research suggests. We have an abundance ... imbues those particles with mass. Breaking space news, the latest ...

High-energy particles rain down on Earth constantly, but scientists have now detected a doozy: a neutrino blasting in from ...

Neutrinos are ghostly subatomic particles that can travel in a straight line for billions of light-years, passing unhindered ...

Detecting dark matter, the elusive type of matter predicted to account for most of the universe's mass, has so far proved to ...

Three and a half kilometers beneath the Mediterranean Sea, around 80km off the coast of Sicily, lies half of a very unusual telescope called KM3NeT.

The team announced its “ultrahigh energy” neutrino on Wednesday, in a paper published in the journal Nature. The finding ...

The year was 1900 and Max Planck was a young physicist working on the problem of blackbody radiation . This was an intense ...

Featuring the world’s largest digital camera, the Vera C. Rubin Observatory will capture these mysterious phenomena in more ...

The antihelium nuclei detected by the Alpha Magnetic Spectrometer (AMS-02) aboard the space station may have ... particles are theorized to interact very weakly with regular matter, making them ...

How could such a tiny piece of matter have mattered so much ... repel one another thanks to other particles, collectively termed bosons, flying between them. “Matter,” Mr. Tonelli says ...

Because we haven't found anything yet, we've started to wonder if dark matter might be lighter or heavier than we thought. When you purchase through links on our site, we may earn an affiliate ...