These experiments analyze the energy spectrum of electrons emitted during the decay process, particularly near the endpoint of the spectrum, where the effects of neutrino mass are most pronounced.

A compact method of detecting neutrinos provides new tests of physics theories and could lead to new reactor-monitoring methods.

When three different neutrinos (each with a different mass) are traveling through space with waves of different frequencies, they are thought to each be a different type of neutrino, and are thus each ...

The JUNO project aims to measure the neutrino mass hierarchy, oscillation parameters and could help scientists unravel the mysteries of supernova explosions, the universe's origins, and new ...

A team of researchers has developed a neutrino detector made of germanium crystals. When they installed the detector at the ...

The detector in Kaiping, China has been built by the Jiangmen Underground Neutrino Observatory and will soon begin the difficult task of spotting neutrinos: tiny cosmic particles with a ...

It does this by trying to understand which neutrino type has the most mass and which type the least. This is an important detail because neutrinos may get their mass through a different mechanism ...

In June, his research group reported on their latest findings, providing the most precise measurements of neutrino mass to date. Another major project called Hyper-Kamiokande, or Hyper-K ...

This process is known as neutrino oscillations and refutes the previous assumption that neutrinos were massless. The mass difference between the two oscillating neutrino types and three quantum mixing ...

He explains how the detector will work. “So we try to measure neutrino mass differences by using this detector to know which neutrino is heavier, which one is lighter. That’s neutrino mass ...

In Sheffield, we study the way that neutrino flavours mix as the neutrinos travel from their birthplace, an effect known as neutrino oscillation. Uncharged, almost massless, and feeling only the weak ...

"The primary scientific goal of JUNO is to measure the neutrino mass hierarchy and oscillation parameters, which will play a crucial role in testing supernova explosion mechanisms, exploring the ...