Neutrinos are elementary particles that are predicted to be massless by the standard model of particle physics, yet their ...

The KATRIN experiment (short for Karlsruhe Tritium Neutrino experiment) is no ordinary setup. It uses a highly radioactive gas called tritium, which undergoes beta decay, spitting out an electron and ...

The IceCube neutrino detector has allowed researchers to resolve a debate about what types of particles make up ...

Scientists have never directly detected dark matter, but some wonder if one high-energy detection in 2023 could be a rare ...

RAPID CITY, S.D. — The 17th annual Sanford Underground Research Facility (SURF) Neutrino Day will take place in Lead on Saturday. The day is a celebration of science and the underground lab’s impact ...

We may already have had our first-ever encounter with dark matter, according to researchers who say a mysteriously high-energy particle detected in 2023 is not a neutrino after all, but something far ...

ANITA was placed in Antarctica because there is little chance of interference from other signals. To capture the emission ...

IceCube neutrino analysis pegs possible galactic source for cosmic rays Physicists re-analyzed 10 years of data and found a tantalizing excess of 79 neutrinos.

A neutrino has interacted with an ice molecule, producing a muon that moves at relativistic speed in the ice, leaving a trace of blue light behind it. | Courtesy of Nicolle R. Fuller/NSF/IceCube ...

However, that statement might no longer be true because of the neutrino—the particle that may be able to transcend dimensions that light cannot. The concept of the neutrino is significant to our ...

The Super-Kamiokande neutrino detector implosion is a fascinating example of the unexpected challenges in engineering and scientific research.