-
corresponding antiparticle,
called an
antineutrino,
which also has spin of 1 /2ħ and no
electric charge.
Antineutrinos are
distinguished from neutrinos...
-
where a
neutron is
converted into a proton, an electron, and an
electron antineutrino (the
antiparticle of the neutrino): n → p + e− + ν e This
process is...
-
transforms it into a
proton by the
emission of an
electron accompanied by an
antineutrino; or,
conversely a
proton is
converted into a
neutron by the emission...
- The
electron neutrino has a
corresponding antiparticle, the
electron antineutrino ( ν e),
which differs only in that some of its
properties have equal...
- also a
leptonic decay into an
electron and the
corresponding electron antineutrino. This "electronic mode" was
discovered at CERN in 1958: π + ⟶ e + + ν...
- A free
neutron spontaneously decays to a proton, an electron, and an
antineutrino, with a mean
lifetime of
about 15 minutes. The
neutron is
essential to...
- process,
inverse beta decay,
conserves lepton number, as the
incoming antineutrino has
lepton number −1,
while the
outgoing positron (antielectron) also...
- of a
neutron with an electron, a
neutrino (later
determined to be an
antineutrino) and a proton.
Fermi first introduced this
coupling in his description...
- Also, the mu meson's
decay products included both a
neutrino and an
antineutrino,
rather than just one or the other, as was
observed in the
decay of other...
- tau neutrino,
electron and
electron antineutrino; 17.39% for
decay into a tau neutrino, muon, and muon
antineutrino. The
similarity of
values of the two...
