What we have achieved here with MicroBooNE is a transformative step for the field of neutrino physics. The questions of short-baseline anomalies - unexpected appearance or disappearance of activity ...

Neutrinos come in three flavour states (electron, muon and tau), and since the 1990s we have known that a neutrino can change flavour as it travels. This astonishing phenomenon is due to quantum ...

These neutrino oscillation parameters are fundamental physical constants in the same way that the mass and charge of the electron are fundamental. Neutrino research, because of the scale, cost and ...

A new underground facility called DUNE, which will accelerate particles for 800 miles between Illinois and South Dakota, ...

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 ...

Scientists will also use data from the prototype to study electron neutrinos, which are one of three known neutrino types. Nearly all of the neutrinos that come out of the neutrino beam at ...

The disappearance of the particle of Yukawa's theory at the end of its life takes place through its transformation into an electron and a neutrino, and it is regarding this that hitherto there has ...

The semileptonic decay channels of the Λc baryon can give important insights into weak interaction, but decay into a neutron, positron and electron neutrino has not been reported so far ...

The short-lived \(W^{-}\) boson decays, forming an electron (charge =\(-1\)) and an electron neutrino (charge = 0). The proton, electron, and the antineutrino move away from one another emitting ...

“The only way we would see them is if the measurement of the number of muon, electron and tau neutrinos is not adding up like it should.” Fermilab’s Short-Baseline Neutrino Program aims to ...