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infrarotes

Infrarotes refers to infrared radiation, a portion of the electromagnetic spectrum with wavelengths longer than visible light and shorter than microwaves. The infrared range is typically defined as about 0.75 micrometers to 1 millimeter, and it is often divided into near infrared, mid infrared, and far infrared, depending on wavelength and applications. The term appears in various linguistic contexts as a label for this form of radiation.

Infrared radiation is produced by thermal emission from objects at nonzero temperatures. According to Planck’s law,

Detection and measurement of infrarotes rely on specialized sensors and instruments. Photodetectors, bolometers, and thermopile sensors

Safety considerations note that concentrated infrared exposure can cause thermal injury to skin or eyes, so

all
matter
above
absolute
zero
emits
IR
to
some
extent,
with
the
spectral
peak
shifting
to
longer
wavelengths
as
temperature
decreases.
For
example,
the
human
body
at
roughly
310
kelvin
emits
most
strongly
around
9
to
10
micrometers.
Infrared
radiation
is
non-ionizing
and
interacts
with
matter
primarily
through
vibrational
and
rotational
molecular
modes,
leading
to
characteristic
absorption
features
in
spectra
and
to
heat
transfer
via
radiation.
form
infrared
cameras,
spectrometers,
and
thermal
imagers
used
across
science,
industry,
and
medicine.
Practical
applications
include
night
vision
and
surveillance,
thermal
imaging
for
building
diagnostics
and
electrical
systems,
spectroscopy
for
chemical
analysis,
and
free-space
or
fiber-based
infrared
communications.
appropriate
shielding
and
protective
eyewear
are
advised
in
relevant
settings.
The
study
of
infrarotes
has
a
long
history
beginning
with
William
Herschel’s
discovery
of
infrared
radiation
in
the
late
18th
century
and
continues
to
expand
through
advances
in
materials,
detectors,
and
imaging
techniques.