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Lepton

Leptons are a class of elementary particles that do not participate in the strong interaction. They are fermions with spin 1/2 and form a key part of the Standard Model. The six leptons are divided into three charged states—electron (e−), muon (μ−), and tau (τ−)—and their corresponding neutrinos—electron neutrino (νe), muon neutrino (νμ), and tau neutrino (ντ). These six members appear in three generations: (e−, νe), (μ−, νμ), and (τ−, ντ).

Charged leptons interact with electromagnetic and weak forces, while neutrinos interact only via the weak interaction

Masses vary significantly among leptons. The charged leptons have rest masses of about 0.511 MeV for the

Lepton number conservation is a feature of many processes, with separate electron, muon, and tau lepton numbers

Leptons play a central role in particle physics, enabling precise tests of the Standard Model and serving

(and
gravity).
Leptons
do
not
carry
color
charge,
so
they
do
not
participate
in
strong
interactions.
In
the
electroweak
sector
of
the
Standard
Model,
left-handed
leptons
form
SU(2)L
doublets
with
their
neutrino
partners,
while
right-handed
charged
leptons
are
SU(2)L
singlets.
electron,
105.7
MeV
for
the
muon,
and
1777
MeV
for
the
tau.
Neutrinos
have
very
small
masses,
with
differences
determined
by
oscillation
experiments;
absolute
masses
are
not
yet
precisely
known,
but
each
is
sub-electronvolt,
and
the
ordering
of
the
mass
states
is
still
unresolved.
commonly
used.
Neutrino
oscillations
show
flavor
change,
preserving
total
lepton
number
but
violating
individual
flavor
numbers.
The
existence
of
neutrinoless
double
beta
decay
would
imply
total
lepton-number
violation
and
Majorana
neutrinos,
signaling
physics
beyond
the
Standard
Model;
no
such
decay
has
been
observed.
as
probes
in
cosmology,
astrophysics,
and
neutrino
research.