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Positron

A positron is the elementary particle with the symbol e+; it is the antiparticle of the electron. It has the same mass as the electron but opposite electric charge, +1e, and a half-integer spin of 1/2, making it a lepton in the same family as the electron. Its existence was predicted by the Dirac equation and discovered experimentally by Carl D. Anderson in 1932 in cosmic-ray studies.

When a positron encounters an electron, the two particles annihilate, converting their mass into energy in

Positrons are produced in nuclear decay processes (beta-plus decay) and in high-energy interactions. In medicine, radiotracers

Applications extend beyond medicine to materials science, where positron annihilation spectroscopy probes microscopic voids and defects,

the
form
of
gamma
rays.
In
the
rest
frame
of
the
annihilating
pair,
the
dominant
outcome
is
two
511
keV
photons
emitted
in
nearly
opposite
directions.
If
the
positron
forms
a
short-lived
bound
state
with
an
electron,
called
positronium,
the
annihilation
can
proceed
through
two
photons
(para-positronium)
with
a
lifetime
of
about
125
picoseconds,
or
three
photons
(ortho-positronium)
with
a
lifetime
of
about
142
nanoseconds
in
vacuum.
that
emit
positrons,
such
as
fluorine-18,
carbon-11,
nitrogen-13,
and
oxygen-15,
are
used
in
positron
emission
tomography
(PET)
to
image
metabolic
processes.
Positrons
can
also
be
generated
in
laboratories
by
particle
accelerators
or
photon-induced
reactions
for
research
purposes.
and
to
fundamental
physics
and
astrophysics,
where
measurements
of
positron
flux
and
annihilation
radiation
inform
models
of
antimatter
and
cosmic
processes.