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kvantgravitation

Kvantgravitation, or quantum gravity, is the field of theoretical physics that seeks a quantum description of gravity and the structure of spacetime. Classical general relativity treats gravity as the curvature of a smooth spacetime manifold, while quantum mechanics governs the behavior of matter and fields at the smallest scales. The goal of kvantgravitation is to unite these frameworks into a single, consistent theory that remains valid at the Planck scale, where quantum effects of spacetime are expected to become significant.

A central challenge is that straightforward quantization of general relativity leads to mathematical infinities that cannot

Experimentally, kvantgravitation remains unverified; direct tests at the Planck scale are out of reach with current

be
tamed
by
standard
renormalization.
This
has
motivated
a
variety
of
research
programs
that
either
modify
gravity
at
high
energies
or
replace
spacetime
with
more
fundamental
entities.
Leading
approaches
include
loop
quantum
gravity,
which
suggests
that
geometric
quantities
like
area
and
volume
have
discrete
spectra
and
that
space
may
be
composed
of
spin
networks
and
spin
foams;
and
string
theory,
which
posits
that
gravitons
arise
as
excitations
of
one-dimensional
strings
and
aims
to
unify
gravity
with
the
other
fundamental
forces,
often
requiring
extra
dimensions
and
holographic
dualities
such
as
AdS/CFT.
Other
ideas
include
causal
dynamical
triangulations,
asymptotic
safety,
and
noncommutative
geometry,
among
others.
Some
research
explores
the
possibility
that
spacetime
and
gravity
are
emergent
phenomena
arising
from
deeper
quantum
correlations.
technology.
Indirect
constraints
come
from
high-precision
tests
of
general
relativity,
black
hole
thermodynamics,
cosmology,
and
searches
for
tiny
deviations
in
astrophysical
signals,
but
a
complete,
experimentally
confirmed
theory
has
yet
to
be
established.