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gammaAbstrahlung

GammaAbstrahlung, or gamma radiation, denotes the emission of high-energy photons produced when an atomic nucleus or, less commonly, an atomic electron system releases excess energy. In most cases, gamma rays originate from nuclear de-excitation: after a beta decay or other transformation leaves a nucleus in an excited state, it emits one or more photons to reach its ground state. Internal conversion may compete with photon emission, ejecting an atomic electron instead of a gamma ray.

Gamma rays have energies ranging from tens of keV to several MeV and are highly penetrating. Their

Natural gamma sources include isotopes in the uranium and thorium decay chains and potassium-40. Artificial gamma

Detection and analysis rely on gamma-ray spectrometry with scintillation detectors (such as NaI(Tl)) or semiconductor detectors

Applications span medical imaging and radiotherapy, industrial radiography, homeland security, and scientific research. Safety considerations emphasize

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interactions
with
matter
depend
on
energy
and
atomic
number,
with
the
photoelectric
effect,
Compton
scattering,
and
electron-positron
pair
production
being
the
dominant
processes
in
different
regimes.
Shielding
requires
dense
materials
(for
example
lead)
and
sufficient
thickness,
along
with
minimizing
exposure
through
distance
and
time.
emitters
such
as
cobalt-60,
cesium-137,
and
technetium-99m
are
widely
used
in
medicine
and
industry.
(high-purity
germanium).
The
observed
energy
lines
identify
isotopes
and
enable
activity
measurements.
radiation
protection,
monitoring,
shielding
design,
and
adherence
to
regulatory
limits.