Neutrinos, the mysterious and nearly massless particles that barely interact with anything, are revealing new secrets through the KATRIN experiment. Using tritium decay and advanced spectrometry, ...

New data establish an upper limit of 0.45 eV/c2 (equivalent to 8 x 10-37 kilograms) for the neutrino mass. KATRIN measures neutrino mass in the laboratory using a model-independent method.

IFLScience traveled to CERN to get an exclusive insight into the crucial theory of particle physics, its limitations, and ...

In just the first 259 days of data collection, KATRIN, a beta-decay-based detector in Germany, has set the smallest upper ...

A new measurement finds the universe's teensiest particles weigh no more than one-millionth the mass of an electron.

The KATRIN experiment at the Karlsruhe Institute of Technology has set a new upper limit for the mass of neutrinos at 0.45 eV/c², a record-break ...

Physicists have set a new upper limit on the mass of neutrinos. And the finding could poke a big hole in the Standard Model ...

According to the experiment, the effective electron neutrino mass cannot be more than 0.45 electron volts, which is ...

Scientists are inching closer to uncovering the mass of ghost particles, a mystery that has remained unsolved for decades.

With the current data from the KATRIN experiment, an upper limit of 0.45 electron volt/c 2 (corresponding to 8 x 10 -37 ...

A new estimate of the ghostly particle’s maximum possible mass brings physicists a tad closer to understanding the universe.

Scientists from the KATRIN experiment have achieved the most precise upper limit ever recorded for the mass of the mysterious ...