Precision scale KATRIN at the Karlsruhe Institute of Technology sets a new upper limit for the mass of neutrinos.

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Physicists at KATRIN in Germany have found an upper limit to the mass of the neutrino, a subatomic particle of the Standard ...

Researchers at KATRIN study tritium decay energy for signs of slight disturbances caused by neutrino emission.

Particle-accelerator study focuses on the r-process thought to be responsible for forming elements heavier than iron ...

The KATRIN experiment in Germany has set a new upper limit on the neutrinos mass at just 0.45 electron volts, marking a major ...

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

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.

Neutrinos are among the most enigmatic particles in the universe. They are omnipresent yet interact extremely rarely with ...

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

Scientists from the KATRIN experiment have achieved the most precise upper limit ever recorded for the mass of the mysterious neutrino – clocking in at less than 0.45 electron volts. This breakthrough ...