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ferrimagnets

Ferrimagnets are materials in which the magnetic moments of atoms on different sublattices are aligned antiparallel, but with unequal magnitudes, resulting in a nonzero net magnetization in the ordered state. This contrasts with ferromagnets, where moments align parallel, and antiferromagnets, where the net moment vanishes due to equal opposite sublattice moments.

The magnetic order is produced by exchange interactions between ions on different lattice sites, often in oxide

Properties of ferrimagnets include typically high magnetic permeability and, in many cases, notable coercivity. They also

Applications include soft ferrites used in transformer cores, inductors, and high-frequency devices; garnets like yttrium iron

compounds
with
iron
group
elements.
Common
structures
include
spinels
with
formula
AB2O4
and
garnets
such
as
Y3Fe5O12,
as
well
as
magnetite
Fe3O4.
In
ferrites,
a
divalent
metal
ion
(for
example
Ni2+,
Zn2+)
occupies
one
sublattice,
while
Fe3+
occupies
others,
leading
to
a
net
moment.
often
exhibit
high
electrical
resistivity,
which
reduces
eddy
currents
at
high
frequencies.
The
temperature
dependence
of
the
sublattice
magnetizations
can
produce
a
compensation
point,
at
which
the
net
magnetization
vanishes
while
magnetic
order
persists;
above
the
Curie
temperature,
long-range
ferrimagnetic
order
disappears.
garnet
(YIG)
are
important
in
microwave
technology
and
magnonics;
ferrimagnetic
materials
are
also
used
in
magnetic
recording
media
and
spintronic
components.