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Darkmatterrelated

Darkmatterrelated is a broad term used in scientific and popular contexts to describe topics, data, and theories connected with dark matter. It encompasses observational evidence for dark matter, theoretical models of its nature, and experimental efforts to detect or constrain its properties. The concept arose to explain discrepancies in galaxy rotation curves, gravitational lensing, and fluctuations in the cosmic microwave background, which indicate a non-luminous, non-baryonic component making up about 27% of the universe's energy density.

Dark matter candidates include weakly interacting massive particles (WIMPs), axions, sterile neutrinos, and more exotic possibilities

Detection approaches are categorized into direct detection (searches for scattering of dark matter particles off nuclei

The field remains active, with upcoming experiments and surveys aiming to probe smaller cross sections, lighter

such
as
fuzzy
dark
matter
or
SIMPs.
The
nature
of
dark
matter
remains
unknown,
with
researchers
exploring
parameter
spaces
for
particle
mass,
interaction
cross
sections,
and
production
mechanisms.
in
ultra-sensitive
detectors),
indirect
detection
(searches
for
standard-model
particles
produced
when
dark
matter
annihilates
or
decays),
and
collider
searches
(production
of
dark
matter
particles
in
high-energy
collisions
inferred
from
missing
energy).
Large
experiments
and
observatories
around
the
world
and
in
space—such
as
XENONnT,
LZ,
PandaX
for
direct
detection;
Fermi-LAT,
AMS-02
for
indirect
detection;
and
the
LHC
for
collider
searches—have
placed
stringent
limits
but
have
not
yet
achieved
a
confirmed
discovery.
or
heavier
mass
ranges,
and
alternative
signals.
Results
from
these
efforts
have
deep
implications
for
cosmology,
particle
physics,
and
our
understanding
of
structure
formation
in
the
universe.