Neutron star collisions are known to be factories in which heavy elements are produced. The fusion that takes place inside stellar cores can only produce elements up to iron; the r-process, or ...

The collision and merger of two neutron stars—the incredibly dense remnants of collapsed stars—are some of the most energetic events in the universe, producing a variety of signals that can be ...

When two neutron stars collide, they unleash some of the most powerful forces in the universe, creating ripples in spacetime, ...

The detector, known as the Jiangmen Underground neutrino Observatory, or JUNO, is located in between two huge nuclear plants at Yangjian and Taishan. Both of those fission plants create their own ...

Wang Yifang, from the Chinese Academy of Sciences which collaborated with 700 physicists worldwide, told The Times: “We are going to know the hierarchy of the neutrino mass, and by knowing this, we ...

Located in China, Juno is a 17-country collaboration that will try to detect neutrinos and antineutrinos to learn more about their mass.

Those are the electron, the muon, and the tau neutrino. Each has slightly different characteristics from one another, and they have the ability to shift between the different types, or "oscillate" in ...

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The neutrino is a notorious troublemaker in the world of particle physics. This tiny, elusive particle with no electric charge likely permeates every corner of the universe, but you’d be hard-pressed ...

Researchers from the KATRIN (Karlsruhe Tritium Neutrino) experiment report the most precise measurement of the upper mass limit of the neutrino to date, establishing it as 0.45 electron volts (eV) – ...

An extremely high-energy neutrino, the most powerful ever detected, was found. This neutrino likely originated from a cosmic event, possibly a supermassive black hole. Its unusual path suggests it may ...