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antiferromagnets

Antiferromagnets are a class of magnetic materials characterized by the antiparallel alignment of magnetic moments within their atomic or ionic structure. Unlike ferromagnets, where magnetic moments align parallel to each other resulting in a net magnetization, antiferromagnets feature neighboring spins oriented in opposite directions, canceling each other out and leading to no large-scale magnetic field.

The phenomenon of antiferromagnetism occurs due to exchange interactions, which are quantum mechanical effects that favor

Antiferromagnets are found in a variety of naturally occurring mineral compounds, such as manganese oxide (MnO),

Research into antiferromagnetic materials continues to advance, with efforts focused on understanding their fundamental properties, manipulating

Overall, antiferromagnets represent a significant area of condensed matter physics with both scientific and technological relevance.

antiparallel
spin
alignment
between
neighboring
atoms.
This
ordering
typically
emerges
below
a
specific
temperature
called
the
Néel
temperature,
named
after
Louis
Néel,
who
first
described
the
behavior
in
1936.
Above
this
temperature,
antiferromagnetic
materials
lose
their
ordered
state
and
behave
paramagnetically.
nickel
oxide
(NiO),
and
hematite
(Fe2O3).
They
are
important
in
several
technological
applications,
especially
in
spintronics,
where
their
ability
to
influence
electron
spin
without
producing
large
magnetic
fields
is
advantageous.
Their
fast
spin
dynamics
and
stability
against
external
magnetic
disturbances
make
them
promising
candidates
for
high-density
memory
devices
and
magnetic
sensors.
their
magnetic
states,
and
integrating
them
into
next-generation
electronic
systems.
The
study
of
antiferromagnets
offers
insights
into
complex
magnetic
phenomena
and
provides
pathways
for
developing
low-energy,
high-speed
electronic
components.