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ferromagnetlike

Ferromagnetlike is a descriptive term used to characterize magnetic behavior that resembles ferromagnetism but does not alone confirm a conventional ferromagnetic ground state. It is used when a material shows a tendency for spins to align and develop a net magnetization, often accompanied by hysteresis and magnetic domains, but the underlying ordering may be weak, short-range, or sample-variant.

Common manifestations include a spontaneous or near-spontaneous magnetization below a characteristic temperature, a nonlinear M–H response,

The term finds use across contexts such as dilute magnetic semiconductors, two-dimensional van der Waals magnets,

It contrasts with true ferromagnetism, where a long-range ordered state exists in the thermodynamic limit with

See also: ferromagnetism, ferrimagnetism, antiferromagnetism, spin glass, exchange interaction.

coercivity,
and
domain
formation.
However,
in
some
cases
the
apparent
ferromagnetism
arises
from
clusters,
impurities,
or
phase
separation
rather
than
bulk
ferromagnetic
order.
and
engineered
artificial
systems
(spin
lattices,
cold-atom
simulators,
metamaterials)
where
exchange
interactions
mimic
ferromagnetic
coupling
but
may
be
constrained
by
dimensionality,
disorder,
or
finite
size.
robust
spontaneous
magnetization
in
zero
field.
To
avoid
misinterpretation,
researchers
specify
the
nature
of
the
ordering
(long-range
vs
short-range),
the
temperature
range,
and
any
structural
inhomogeneity.