In MiniBooNE, a beam of either positive or negative pions decays to form beams of positive or negative muons, and muon neutrinos or antineutrinos, whose oscillations are looked for (Fig. 1b).

MiniBooNE researchers showed conclusively that the LSND results could not be due to simple neutrino oscillation, a phenomenon in which one type of neutrino transforms into another type and back again.

A 17 MeV pseudoscalar and the LSND, MiniBooNE and ATOMKI anomalies Journal: Journal of High Energy Physics Published: 2024-10-10 DOI: 10.1007/jhep10 (2024)086 Affiliations: 5 Authors: 6 Go to article ...

New Haven, Conn. — The initial data from the 10-year long "MiniBooNE" experiment at the Department of Energy's Fermilab significantly clarifies the overall picture of how the neutrino ...

MiniBooNE counts how many muon antineutrinos oscillate into electron antineutrinos over a relatively short distance. A 1990 result from the LSND experiment at Los Alamos, which used a beam of muon ...

Physicists working on the MiniBooNE experiment at Fermilab in the US have shown that, as thought, nature contains just three types of neutrino. This result contradicts a puzzling finding obtained by a ...

The MiniBooNE team is an international collaboration of 77 researchers from 17 institutions in the United States and the U.K. working at Fermilab, with support from the Department of Energy and ...

The MiniBooNE experiment was designed differently from LSND, yet has shown similar results. “I’m careful about saying it’s sterile neutrinos. It could be, but it could be something else," Van de Water ...

The recent measurement, performed by a collaboration of scientists called MiniBooNE, could herald the possible discovery of a new kind of neutrino that could possibly be the source of dark matter ...