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antineutron

An antineutron is the antiparticle of the neutron. It is a neutral baryon made up of three antiquarks, specifically anti-up, anti-down, and anti-down (ū d̄ d̄). It has the same mass as the neutron and zero electric charge, but opposite quantum numbers such as baryon number, which is -1 for the antineutron, and an opposite magnetic moment. Like the neutron, the antineutron is a spin-1/2 fermion.

In interactions, the antineutron participates in the same strong and electromagnetic processes as the neutron. A

Antineutrons are produced in high-energy particle collisions and in cosmic-ray interactions. They are detected by observing

Antineutrons play a role in fundamental tests of symmetries and in studies of antimatter interactions, contributing

key
difference
is
that
an
antineutron
annihilates
when
it
encounters
ordinary
matter
(nucleons),
typically
producing
a
burst
of
pions
and
other
mesons.
When
free,
an
antineutron
can
decay
via
the
weak
interaction
into
an
anti-proton,
a
positron,
and
an
electron
neutrino
(anti-neutron
→
anti-proton
+
e+
+
νe)
with
a
lifetime
similar
to
that
of
the
neutron,
on
the
order
of
several
minutes.
their
annihilation
signatures
in
detectors,
or,
less
directly,
by
tracking
decay
products
if
the
antineutron
decays
before
annihilating.
The
existence
and
properties
of
antineutrons
are
predicted
by
CPT
symmetry,
which
ensures
that
particles
and
their
antiparticles
have
identical
masses
and
lifetimes
(within
experimental
limits)
but
opposite
charges
and
quantum
numbers.
to
our
understanding
of
baryon
number
conservation
and
matter–antimatter
asymmetry.