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polariton

A polariton is a quasiparticle that arises from the strong coupling between a photon and an electric or matter excitation in a solid or structured medium. In this mixed light–matter state, the electromagnetic field and the excitation exchange energy faster than they dissipate, creating new normal modes that propagate with properties different from either constituent.

Several polariton families are distinguished by the type of matter excitation involved. Exciton-polaritons form from the

In a strongly coupled system, the photon and matter excitations hybridize into two polariton branches, typically

Polaritons are realised in various devices, notably semiconductor microcavities embedding quantum wells, and in other engineered

Research on polaritons explores fundamental light–matter interactions, polariton condensation and superfluidity, and potential applications in optical

coupling
of
photons
with
excitons,
bound
electron–hole
pairs
in
semiconductors,
and
are
often
studied
in
microcavities
where
quantum
wells
are
placed
between
mirrors.
Phonon-polaritons
result
from
coupling
photons
with
optical
phonons
in
polar
crystals.
Plasmon-polaritons
(or
surface
plasmon–polaritons)
arise
from
coupling
with
collective
electron
oscillations
in
metals
and
graphene.
Other
hybrids,
such
as
magnon-polaritons,
involve
coupling
with
magnetic
excitations.
labeled
upper
and
lower,
which
exhibit
anticrossing
in
the
dispersion
relation
and
a
characteristic
Rabi
splitting.
The
effective
mass
of
these
polaritons
is
very
small,
especially
for
exciton-polaritons,
enabling
high
coherence
and
macroscopic
quantum
effects
at
comparatively
high
temperatures.
structures.
Material
platforms
include
GaAs,
GaN,
perovskites,
and
two-dimensional
materials.
They
have
motivated
interest
in
low-threshold
polariton
lasing,
nonlinear
optics,
and
quantum
fluids
of
light.
information
processing
and
quantum
simulation.