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gravitoner

Gravitioner, or gravitoner in Swedish, are hypothetical elementary particles that would mediate the gravitational force in quantum theories of gravity. In most models they are massless spin-2 bosons with two physical helicity states. They would couple universally to energy and momentum, with effects that become significant only at very high energies or very short distances near the Planck scale.

Relation to classical gravity: Gravity is described classically by general relativity as curvature of spacetime. A

Experimental status: Gravitoner have not been observed directly. Gravitational waves detected by LIGO and other observatories

Theoretical context: Gravitoner appear in perturbative quantum gravity and in string theory. The standard perturbative quantization

Notes: The concept remains theoretical, guiding research in quantum gravity and phenomenology, rather than a confirmed

linearized,
weak-field
approximation
treats
fluctuations
of
the
metric
as
a
quantum
field,
yielding
gravitoner
quanta.
In
this
picture,
long-range
gravity
and
Newton's
law
arise
from
the
exchange
of
many
virtual
gravitons.
are
classical
predictions
of
general
relativity;
they
could
be
viewed
as
coherent
states
of
a
very
large
number
of
gravitons.
If
gravitoner
had
mass,
gravity
would
acquire
a
Yukawa-like
term
and
the
propagation
would
differ
from
general
relativity;
observational
constraints
place
extremely
small
upper
bounds
on
any
graviton
mass
and
on
deviations
from
general
relativity.
of
gravity
is
nonrenormalizable,
so
the
graviton
is
typically
treated
within
an
effective
field
theory
at
low
energies.
Other
approaches
to
quantum
gravity
include
loop
quantum
gravity
and
various
string-theoretic
frameworks,
where
the
graviton
emerges
as
a
specific
excitation
of
fundamental
degrees
of
freedom.
particle
in
experiments.