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rentgen

Rentgen refers to X-ray radiation and imaging in several languages, named after Wilhelm Conrad Röntgen, a German physicist who discovered X-rays in 1895. The name also appears in some contexts as the old unit of exposure, the roentgen (often spelled rentgen in non-English texts), which is historical and largely superseded by SI units.

Discovery and impact

On 8 November 1895, while experimenting with a Crookes tube, Röntgen observed a fluorescent screen glow through

Nature and properties

X-rays are a form of electromagnetic radiation with wavelengths shorter than visible light. They are ionizing

Uses and safety

The primary use is medical imaging, including radiography and computed tomography, supplemented by industrial nondestructive testing,

a
covered
window,
even
though
the
tube
was
shielded.
He
realized
a
new
kind
of
penetrating
radiation
was
being
emitted
and
could
pass
through
matter
to
expose
photographic
plates.
He
published
his
findings
in
a
concise
note
and
soon
demonstrated
that
X-rays
could
photograph
the
internal
structure
of
the
hand.
In
1901,
Röntgen
received
the
Nobel
Prize
in
Physics
for
this
discovery,
which
rapidly
transformed
medicine
and
imaging
science.
and
capable
of
removing
electrons
from
atoms,
which
carries
a
risk
of
biological
damage
with
high
or
repeated
exposure.
Their
interaction
with
matter
depends
on
density
and
composition;
dense
materials
like
bone
absorb
more
X-rays
than
soft
tissue,
enabling
radiographic
imaging.
X-ray
production
typically
involves
high-energy
electrons
striking
a
metal
target
in
an
X-ray
tube
or
using
synchrotron
sources.
security
screening,
and
scientific
research.
Because
X-rays
are
ionizing,
exposure
is
regulated
to
minimize
risk,
using
shielding,
dose
optimization,
and
justification
of
procedures.
Common
dose
units
include
gray
for
absorbed
dose
and
sievert
for
effective
dose;
the
historical
roentgen/rentgen
unit
is
largely
obsolete
in
modern
practice.